tidalearth.log

-------- Log file tidalearth.log -------

Executable: /Users/jcbecker/anaconda3/bin/vplanet
Version: Unknown
System Name: tidalearth
Primary Input File: vpl.in
Body File #1: sun.in
Body File #2: b.in
Body File #3: c.in
Allow files to be overwitten: Yes
Mass Units: Grams
Length Units: Meters
Time Units: Seconds
Angle Units: Radians

------- FORMATTING -----
Verbosity Level: 5
Crossover Decade for Scientific Notation: 4
Number of Digits After Decimal: 6
Integration Method: Runge-Kutta4
Direction: Forward
Time Step: 3.155760e+07
Stop Time: 2.272147e+17
Output Interval: 3.155760e+12
Use Variable Timestep: Yes
dEta: 0.001000
Minimum Value of ecc and obl: 1.000000e-10


---- INITIAL SYSTEM PROPERTIES ----
(Age) System Age [sec]: 0.000000 
(Time) Simulation Time [sec]: 0.000000 
(TotAngMom) Total Angular Momentum [kg*m^2/sec]: 5.681734e+40 
(TotEnergy) Total System Energy [kg*m^2/sec^2]: -2.036613e+40 
(PotEnergy) Body's non-orbital Potential Energy [kg*m^2/sec^2]: -2.036790e+40 
(KinEnergy) Body's non-orbital Kinetic Energy [kg*m^2/sec^2]: 1.817220e+36 
(DeltaTime) Average Timestep Over Last Output Interval [sec]: 0.000000 

----- BODY: sun ----
Active Modules: EqTide STELLAR
Module Bit Sum: 67
Color: 000000
(Mass) Mass [kg]: 2.346331e+29 
(Obliquity) Obliquity [rad]: 0.000000 
(PrecA) Body's precession angle [rad]: 0.000000 
(Xobl) Body's sin(obliquity)*cos(precession angle) []: 0.000000 
(Yobl) Body's sin(obliquity)*sin(precession angle) []: 0.000000 
(Zobl) Body's cos(obliquity) []: 1.000000 
(Radius) Radius [m]: 1.082400e+08 
(RadGyra) Radius of Gyration/Moment of Inertia Constant []: 0.500000 
(RotAngMom) Rotational Angular Momentum [kg*m^2/sec]: 4.997713e+40 
(RotKinEnergy) Body's Rotational Energy [kg*m^2/sec^2]: 1.817220e+36 
(RotVel) Rotational Velocity [m/sec]: 7871.438080 
(BodyType) Type of Body (0 == planet) []: 0.000000 
(RotRate) Rotational Frequency [/sec]: 7.272205e-05 
(RotPer) Rotational Period [sec]: 8.640000e+04 
(Density) Average Density [kg/m^3]: 4.417095e+04 
(SurfEnFluxTotal) Total Surface Energy Flux [kg*m^2/sec^2/(m^2*sec)]: 0.000000 
(TidalQ) Tidal Q []: 1.000000e+06 
(ImK2) Im(k_2) []: -1.500000e-06 
(K2) k_2 []: 1.500000 
(K2Man) Real Love Number k2 Mantle []: 0.010000 
(Imk2Man) Imaginary Love Number k2 Mantle []: 0.000000 
(TidalQMantle) Mantle's Tidal Q []: 100.000000 
(HEcc) Poincare's h (=e*sin(varpi) []: 0.000000 
(HZLimitDryRunaway) Semi-major axis of Dry Runaway HZ Limit [m]: 1.625155e+13 
(HZLimRecVenus) Recent Venus HZ Limit [m]: 1.339219e+13 
(HZLimRunaway) Runaway Greenhouse HZ Limit [m]: 1.748765e+13 
(HZLimMoistGreenhouse) Moist Greenhouse HZ Limit [m]: 1.771994e+13 
(HZLimMaxGreenhouse) Maximum Greenhouse HZ Limit [m]: 3.003605e+13 
(HZLimEarlyMars) Early Mars HZ Limit [m]: 3.277176e+13 
(Instellation) Orbit-averaged INcident STELLar radiATION [kg*m^2/sec^2/(m^2*sec)]: -1.000000 
(KEcc) Poincare's k (=e*cos(varpi) []: 0.000000 
(Eccentricity) Orbital Eccentricity []: -1.000000 
(OrbEnergy) Body's Total Orbital Energy [kg*m^2/sec^2]: 0.000000 
(MeanMotion) Orbital Mean Motion [/sec]: -1.000000 
(OrbPeriod) Orbital Period [sec]: -1.000000 
(SemiMajorAxis) Semi-major Axis [m]: -1.000000 
(CriticalSemiMajorAxis) Holman & Wiegert (1999) P-type Critical Semi-major Axis [m]: -1.000000 
(COPP) Climate Obliquity Precession Parameter []: 0.000000 
(OrbAngMom) Orbital Angular Momentum [kg*m^2/sec]: 0.000000 
(LongP) Body's Longitude of pericenter [rad]: 0.000000 
(LXUVTot) Total XUV Luminosity [kg*m^2/sec^2/(m^2*sec)]: 5.509440e+27 
(TotOrbEnergy) System's Total Orbital Energy [kg*m^2/sec^2]: -4.431425e+34 
(OrbPotEnergy) Body's Orbital Potential Energy [kg*m^2/sec^2]: -1.000000 
(LostEnergy) Body's Total Lost Energy [kg*m^2/sec^2]: 5.562685e-309 
(LostAngMom) Lost Angular Momentum due to Magnetic Braking [kg*m^2/sec]: 5.562685e-309 
----- EQTIDE PARAMETERS (sun)------
(LockTime) Time when body tidally locked. [sec]: -1.000000 
(BodyDsemiDtEqtide) In EqTide, the total change in semi-major axis is due to dissipation in both bodies. This output parameter returns the change due to current body. []: -1.000000 
(BodyDeccDt) In EqTide, the total change in eccentricity is due to towrues on both bodies. This output parameter returns the change due to current body. []: -1.000000 
(DOblDtEqtide) Time Rate of Change of Obliquity in EqTide [rad/sec]: 1.112537e-308 
(DRotPerDtEqtide) Time Rate of Change of Rotation Period in EqTide []: -1.321789e-299 
(DRotRateDtEqtide) Time Rate of Change of Rotational Frequency in EqTide [/sec^2]: 1.112537e-308 
(EqRotRateDiscrete) CPL2 Discrete Equilibrium Spin Rate [/sec]: -1.000000 
(EqRotPerDiscrete) CPL2 Discrete Equilibrium Spin Period [sec]: -1.000000 
(EqRotRateCont) CPL2 Continuous Equilibrium Spin Rate [/sec]: 0.010002 
(EqRotPerCont) CPL2 Continuous Equilibrium Rotation Period [sec]: 628.218121 
(EqRotPer) Equilibrium Rotation Period [sec]: 2.358663e+05 
(EqTidePower) Equilibrium Power from Tides [/sec]: -1.000000 
(GammaRot) Gamma_Rotation [sec]: -1.000000 
(GammaOrb) Gamma_Orbital [sec]: -1.000000 
(OceanK2) Ocean's Love number k_2 []: 0.010000 
(EnvTidalQ) Envelope Tidal Q []: -1.000000 
(OceanTidalQ) Ocean Tidal Q []: -1.000000 
(TidalTau) Tidal Time Lag [sec]: 1.000000 
(TideLock) Tidally Locked? []: 1.000000 
(RotTimeEqtide) Timescale for Rotational Evolution in EqTide [sec]: 5.562685e-309 
(EnvK2) Envelope's Love number k_2 []: 0.010000 
(OblTimeEqtide) Timescale for Obliquity Evolution in EqTide []: -1.000000 
(PowerEqtide) Internal Power due to Tides in EqTide [kg*m^2/sec^3]: 0.000000 
(SurfEnFluxEqtide) Surface Energy Flux due to Tides in EqTide [kg*m^2/sec^2/(m^2*sec)]: 0.000000 
Tidal Perturbers: b, c
----- STELLAR PARAMETERS (sun)------
(Luminosity) Luminosity [kg*m^2/sec^3]: 5.509440e+30 
(LXUVStellar) Base X-ray/XUV Luminosity [kg*m^2/sec^3]: 5.509440e+27 
(Temperature) Effective Temperature [K]: 5778.000000 
(LXUVFrac) Fraction of luminosity in XUV []: 0.001000 
(RossbyNumber) Rossby Number []: 0.078260 
(DRotPerDtStellar) Time Rate of Change of Rotation Period in STELLAR []: 2.889133e-12 
Output Order:
Grid Output Order:

----- BODY: b ----
Active Modules: EqTide RadHeat ThermInt
Module Bit Sum: 135
Color: 000000
(Mass) Mass [kg]: 7.763842e+24 
(Obliquity) Obliquity [rad]: 0.000000 
(PrecA) Body's precession angle [rad]: 0.000000 
(Xobl) Body's sin(obliquity)*cos(precession angle) []: 0.000000 
(Yobl) Body's sin(obliquity)*sin(precession angle) []: 0.000000 
(Zobl) Body's cos(obliquity) []: 1.000000 
(Radius) Radius [m]: 8.419092e+06 
(RadGyra) Radius of Gyration/Moment of Inertia Constant []: 0.500000 
(RotAngMom) Rotational Angular Momentum [kg*m^2/sec]: 3.664892e+33 
(RotKinEnergy) Body's Rotational Energy [kg*m^2/sec^2]: 4.881409e+28 
(RotVel) Rotational Velocity [m/sec]: 224.274168 
(BodyType) Type of Body (0 == planet) []: 0.000000 
(RotRate) Rotational Frequency [/sec]: 2.663876e-05 
(RotPer) Rotational Period [sec]: 2.358663e+05 
(Density) Average Density [kg/m^3]: 3105.934567 
(SurfEnFluxTotal) Total Surface Energy Flux [W/m^2]: 357.237796 
(TidalQ) Tidal Q []: 54.148931 
(ImK2) Im(k_2) []: -1.466969e-12 
(K2) k_2 []: 1.500000 
(K2Man) Real Love Number k2 Mantle []: 1.500000 
(Imk2Man) Imaginary Love Number k2 Mantle []: -1.466969e-12 
(TidalQMantle) Mantle's Tidal Q []: 54.148931 
(ViscUMan) Upper Mantle Viscosity [m^2/s]: 7.753114e+06 
(HEcc) Poincare's h (=e*sin(varpi) []: 0.000000 
(HZLimitDryRunaway) Semi-major axis of Dry Runaway HZ Limit [m]: 1.633342e+13 
(HZLimRecVenus) Recent Venus HZ Limit [m]: 1.339219e+13 
(HZLimRunaway) Runaway Greenhouse HZ Limit [m]: 1.748765e+13 
(HZLimMoistGreenhouse) Moist Greenhouse HZ Limit [m]: 1.771994e+13 
(HZLimMaxGreenhouse) Maximum Greenhouse HZ Limit [m]: 3.003605e+13 
(HZLimEarlyMars) Early Mars HZ Limit [m]: 3.277176e+13 
(Instellation) Orbit-averaged INcident STELLar radiATION [kg*m^2/sec^2/(m^2*sec)]: 5.600498e+10 
(KEcc) Poincare's k (=e*cos(varpi) []: 0.100000 
(Eccentricity) Orbital Eccentricity []: 0.100000 
(OrbEnergy) Body's Total Orbital Energy [kg*m^2/sec^2]: -2.167273e+34 
(MeanMotion) Orbital Mean Motion [/sec]: 2.663876e-05 
(OrbPeriod) Orbital Period [sec]: 2.358663e+05 
(SemiMajorAxis) Semi-major Axis [m]: 2.804960e+09 
(CriticalSemiMajorAxis) Holman & Wiegert (1999) P-type Critical Semi-major Axis [m]: -1.000000 
(COPP) Climate Obliquity Precession Parameter []: 0.000000 
(OrbAngMom) Orbital Angular Momentum [kg*m^2/sec]: 1.619002e+39 
(LongP) Body's Longitude of pericenter [rad]: 0.000000 
(TotOrbEnergy) System's Total Orbital Energy [kg*m^2/sec^2]: -4.431425e+34 
(OrbPotEnergy) Body's Orbital Potential Energy [kg*m^2/sec^2]: -4.334547e+34 
(LostEnergy) Body's Total Lost Energy [kg*m^2/sec^2]: 5.562685e-309 
----- EQTIDE PARAMETERS (b)------
(TidalRadius) In EqTide, the value of the radius that enters the tidal evolution equations. This parameter is distinct from others, such as the radius of XUV absorption or a pressure level in an atmosphere. [m]: 8.419092e+06 
(DsemiDtEqtide) Total da/dt from EqTide [m/sec]: -3.200124e-06 
(DeccDtEqtide) Total de/dt from EqTide [/sec]: -5.704307e-15 
(DMeanMotionDtEqtide) Total dMeanMotion/dt from EqTide [/sec^2]: 4.558746e-20 
(DOrbPerDtEqtide) Total dOrbPer/dt from EqTide []: -4.036428e-10 
(EccTimeEqtide) Timescale for Eccentricity Evolution (e/[de/dt]) in EqTide [sec]: 1.753061e+13 
(SemiTimeEqtide) Timescale for Semi-major Axis Evolution (a/[da/dt]) in EqTide [sec]: 8.765161e+14 
(DHEccDtEqtide) Time Rate of Change of Poincare's h in EqTide [/sec]: -0.000000 
(DKEccDtEqtide) Time Rate of Change of Poincare's k in EqTide [/sec]: -5.704307e-15 
(DXoblDtEqtide) Time Rate of Change of Laskar's X in EqTide [/sec]: 5.562685e-309 
(DYoblDtEqtide) Time Rate of Change of Laskar's Y in EqTide [/sec]: 5.562685e-309 
(DZoblDtEqtide) Time Rate of Change of Laskar's Z in EqTide [/sec]: 5.562685e-309 
(LockTime) Time when body tidally locked. [sec]: 0.000000 
(BodyDsemiDtEqtide) In EqTide, the total change in semi-major axis is due to dissipation in both bodies. This output parameter returns the change due to current body. []: -1.000000 
(BodyDeccDt) In EqTide, the total change in eccentricity is due to towrues on both bodies. This output parameter returns the change due to current body. []: -1.000000 
(DOblDtEqtide) Time Rate of Change of Obliquity in EqTide [rad/sec]: 5.562685e-309 
(DRotPerDtEqtide) Time Rate of Change of Rotation Period in EqTide []: -4.925341e-299 
(DRotRateDtEqtide) Time Rate of Change of Rotational Frequency in EqTide [/sec^2]: 5.562685e-309 
(EqRotRateDiscrete) CPL2 Discrete Equilibrium Spin Rate [/sec]: -1.000000 
(EqRotPerDiscrete) CPL2 Discrete Equilibrium Spin Period [sec]: -1.000000 
(EqRotRateCont) CPL2 Continuous Equilibrium Spin Rate [/sec]: 0.010002 
(EqRotPerCont) CPL2 Continuous Equilibrium Rotation Period [sec]: 628.218121 
(EqRotPer) Equilibrium Rotation Period [sec]: 2.358663e+05 
(EqTidePower) Equilibrium Power from Tides [/sec]: -1.000000 
(GammaRot) Gamma_Rotation [sec]: -1.000000 
(GammaOrb) Gamma_Orbital [sec]: -1.000000 
(OceanK2) Ocean's Love number k_2 []: 0.010000 
(EnvTidalQ) Envelope Tidal Q []: -1.000000 
(OceanTidalQ) Ocean Tidal Q []: -1.000000 
(TidalTau) Tidal Time Lag [sec]: 1.000000 
(TideLock) Tidally Locked? []: 1.000000 
(RotTimeEqtide) Timescale for Rotational Evolution in EqTide [sec]: 4.788832e+303 
(EnvK2) Envelope's Love number k_2 []: 0.010000 
(OblTimeEqtide) Timescale for Obliquity Evolution in EqTide []: -1.000000 
(PowerEqtide) Internal Power due to Tides in EqTide [TW]: 0.001309 
(SurfEnFluxEqtide) Surface Energy Flux due to Tides in EqTide [kg*m^2/sec^2/(m^2*sec)]: 1.470029e-06 
Tidal Perturbers: sun
----- RADHEAT PARAMETERS (b)------
(26AlPowerMan) Total Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlPowerCore) Core Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlEnFlux) Surface Energy Flux from 26Al [kg*m^2/sec^2/(m^2*sec)]: -0.000000 
(D26AlPowerDt) Time Rate of Change of 26Al Power Generation []: -1.000000 
(D26AlNumManDt) Time Rate of Change of 26Al Heat Generation [/sec]: 0.000000 
(26AlMassMan) Mass of Mantle in 26Al [kg]: 0.000000 
(26AlMassCore) Mass of core in 26Al [kg]: 0.000000 
(26AlNumMan) Total Number of 26Al Atoms []: 0.000000 
(26AlNumCore) Total Core Number of 26Al Atoms []: 0.000000 
(26AlTimescale) Timescale for 26Al Power Generation []: -1.000000 
(26AlPowerTotal) Total Power from Decay of 26Al Atoms [kg*m^2/sec^3]: -0.000000 
(40KPowerMan) Total Power Generated by 40K [kg*m^2/sec^3]: 3.615780e+13 
(40KPowerCore) Core Power Generated by 40K [kg*m^2/sec^3]: 3.385730e+13 
(40KEnFlux) Surface Energy Flux from 40K [kg*m^2/sec^2/(m^2*sec)]: 0.094195 
(D40KPowerDt) Time Rate of Change of 40K Power Generation []: -1.000000 
(D40KNumManDt) Time Rate of Change of 40K Heat Generation [/sec]: -1.694596e+26 
(40KMassMan) Total Mass of 40K [kg]: 6.451091e+17 
(40KMassCore) Total Core Mass of 40K [kg]: 6.040647e+17 
(40KNumMan) Total Number of 40K Atoms []: 9.721094e+42 
(40KNumCore) Total Core Number of 40K Atoms []: 9.102600e+42 
(40KTimescale) Timescale for 40K Power Generation []: -1.000000 
(40KPowerCrust) Crust Power Generated by 40K [kg*m^2/sec^3]: 1.388590e+13 
(40KMassCrust) Total Crust Mass of 40K [kg]: 2.477452e+17 
(40KNumCrust) Total Crust Number of 40K Atoms []: 3.733251e+42 
(40KPowerTotal) Total Power from Decay of 40K Atoms [kg*m^2/sec^3]: 8.390100e+13 
(232ThPowerMan) Total Power Generated by 232Th [kg*m^2/sec^3]: 6.515750e+12 
(232ThPowerCore) Total Power Generated by 232Th [kg*m^2/sec^3]: 1.454100e+11 
(232ThEnFlux) Surface Energy Flux from 232Th [kg*m^2/sec^2/(m^2*sec)]: 0.011778 
(D232ThNumManDt) Time Rate of Change of the number of 232Th nuclei [/sec]: -9.534863e+23 
(232ThMassMan) Total Mass of 232Th [kg]: 2.342183e+17 
(232ThMassCore) Total Mass of 232Th [kg]: 5.226978e+15 
(232ThNumMan) Total Number of 232Th Atoms []: 6.078735e+41 
(232ThNumCore) Total Number of 232Th Atoms []: 1.356573e+40 
(232ThTimescale) Timescale for 232Th Power Generation []: -1.000000 
(232ThPowerCrust) Total Power Generated by 232Th [kg*m^2/sec^3]: 3.829910e+12 
(232ThMassCrust) Total Mass of 232Th [kg]: 1.376718e+17 
(232ThNumCrust) Total Number of 232Th Atoms []: 3.573036e+41 
(232ThPowerTotal) Total Power from Decay of 232Th Atoms [kg*m^2/sec^3]: 1.049107e+13 
(238UPowerMan) Total Power Generated by 238U [kg*m^2/sec^3]: 1.166910e+13 
(238UPowerCore) Total Core Power Generated by 238U [kg*m^2/sec^3]: 1.203810e+11 
(238UEnFlux) Surface Energy Flux due to 238U [kg*m^2/sec^2/(m^2*sec)]: 0.019032 
(D238UNumManDt) Time Rate of Change of the Number of 238U Nuclei [/sec]: -1.408812e+24 
(238UMassMan) Total Mass of 238U [kg]: 1.133820e+17 
(238UMassCore) Total Core Mass of 238U [kg]: 1.169673e+15 
(238UNumMan) Total Number of 238U Atoms []: 2.868305e+41 
(238UNumCore) Total Core Number of 238U Atoms []: 2.959006e+39 
(238UTimescale) Timescale for 238U Power Generation []: -1.000000 
(238UPowerCrust) Total Crust Power Generated by 238U [kg*m^2/sec^3]: 5.162370e+12 
(238UMassCrust) Total Crust Mass of 238U [kg]: 5.015980e+16 
(238UNumCrust) Total Crust Number of 238U Atoms []: 1.268928e+41 
(238UPowerTotal) Total Power from Decay of 238U Atoms [kg*m^2/sec^3]: 1.695185e+13 
(235UPowerMan) Total Power Generated by 235U [kg*m^2/sec^3]: 2.024900e+13 
(235UPowerCore) Total Core Power Generated by 235U [kg*m^2/sec^3]: 5.015860e+11 
(235UEnFlux) Surface Energy Flux due to 235U [kg*m^2/sec^2/(m^2*sec)]: 0.034961 
(D235UNumManDt) Time Rate of Change of the Number of 235U Nuclei [/sec]: -3.089017e+24 
(235UMassMan) Total Mass of 235U [kg]: 3.862657e+16 
(235UMassCore) Total Core Mass of 235U [kg]: 9.568150e+14 
(235UNumMan) Total Number of 235U Atoms []: 9.896646e+40 
(235UNumCore) Total Core Number of 235U Atoms []: 2.451489e+39 
(235UTimescale) Timescale for 235U Power Generation []: -1.000000 
(235UPowerCrust) Total Crust Power Generated by 235U [kg*m^2/sec^3]: 1.038960e+13 
(235UMassCrust) Total Crust Mass of 235U [kg]: 1.981898e+16 
(235UNumCrust) Total Crust Number of 235U Atoms []: 5.077890e+40 
(235UPowerTotal) Total Power from Decay of 235U Atoms [kg*m^2/sec^3]: 3.114019e+13 
(RadPowerMan) Total Power Generated by Radiogenic Nuclides in the mantle [TW]: 74.591650 
(RadPowerCore) Total Power Generated by Radiogenic Nuclides in Core [TW]: 34.624677 
(RadPowerCrust) Total Power Generated by Radiogenic Nuclides in the crust [TW]: 33.267780 
(RadPowerTotal) Total Power Generated by Radiogenic Nuclides in Total (M+C) [TW]: 142.484107 
(SurfEnFluxRadTotal) Total Surface Heat Flux Generated by Radiogenic Nuclides [kg*m^2/sec^2/(m^2*sec)]: 0.159965 
----- THERMINT PARAMETERS (b)------
(TMan) Mantle Temperature [K]: 3500.000000 
(TUMan) Upper Mantle Temperature [K]: 2450.000000 
(TLMan) Lower Mantle Temperature [K]: 4550.000000 
(TCore) Core Temperature [K]: 5500.000000 
(TCMB) CMB Temperature [K]: 4400.000000 
(BLUMan) Boundary Layer Thickness Upper Mantle [km]: 0.017833 
(BLLMan) Boundary Layer Thickness Lower Mantle [km]: 0.521534 
(TJumpUMan) Upper Mantle Temperature Jump [K]: 2150.000000 
(TJumpLMan) Lower Mantle Temperature Jump [K]: 150.000000 
(SignTJumpUMan) Sign of Upper Mantle Temperature Jump []: 1.000000 
(SignTJumpLMan) Sign of Lower Mantle Temperature Jump []: -1.000000 
(ViscLMan) Lower Mantle Viscosity [m^2/s]: 1.353015e+10 
(ShmodUMan) Shear Modulus Upper Mantle []: 95.354299 
(FMeltUMan) Melt Fraction Upper Mantle []: 1.000000 
(FMeltLMan) Melt Fraction Lower Mantle []: 0.807626 
(MeltfactorUMan) Melt Factor Upper Mantle []: 1.925879e+07 
(MeltfactorLMan) Melt Factor Lower Mantle []: 2.207154e+04 
(DepthMeltMan) Depth to base of Upper Mantle Melt Region []: 2.551889e+06 
(TDepthMeltMan) Temp at base of Upper Mantle Melt Region []: 3725.935396 
(TJumpMeltMan) Temp Jump across Upper Mantle Melt Region []: 2149.991083 
(MeltMassFluxMan) Mantle Melt Mass Flux [kg/s]: 1.101581e+11 
(ViscUManArr) Upper Mantle Arrhenius Viscosity [m^2/sec]: 1.493156e+14 
(RayleighMan) Mantle Rayleigh Number [nd]: 3.005042e+17 
(ViscMMan) Average (mid) Mantle Viscosity [m^2/sec]: 7.753114e+07 
(TDotMan) Change in Mantle Temperature [K/s]: -4.878183e-11 
(TDotCore) Change in Core Temperature [K/s]: 2.897543e-13 
(HfluxUMan) Heat Flux Upper Mantle []: 506.363430 
(HflowUMan) Heat Flow Upper Mantle [TW]: 2.582780e+05 
(HfluxLMan) Heat Flux Lower Mantle []: -2.876130 
(HflowLMan) Heat Flow Lower Mantle []: -4.379520e+14 
(HfluxCMB) Heat Flux Core-Mantle Boundary []: -2.876130 
(HflowCMB) Heat Flow Core-Mantle Boundary [TW]: -437.951969 
(HflowLatentMan) Latent Heat Flow Mantle []: 7.111566e+16 
(HflowMeltMan) Melt Heat Flow Mantle [TW]: 5.992025e+04 
(HflowLatentIC) Latent Heat Release at ICB []: 0.000000 
(PowerGravIC) Gravitational Power Release at ICB []: 0.000000 
(HflowSurf) Heat Flow Surface Total []: 3.181982e+17 
(HflowSecMan) Mantle Secular Heat Flow [TW]: 2.474459e+05 
(HfluxCMBAd) Adiabatic Heat Flux Core-Mantle Boundary []: 0.041915 
(HfluxCMBConv) Super-Adiabatic (convective) Heat Flux Core-Mantle Boundary []: -2.918046 
(RIC) Inner Core Radius [km]: 0.000000 
(DRICDTCMB) d(R_ic)/d(T_cmb) []: 0.000000 
(RICDot) Inner Core growth rate []: 0.000000 
(ChiOC) Light Element Concentration in Outer Core []: 0.094946 
(ChiIC) Light Element Concentration in Inner Core []: 0.000000 
(ThermConductOC) Thermal Conductivity of the Outer Core []: 110.000000 
(MassOC) Mass of Outer Core []: 1.941615e+24 
(MassIC) Mass of Inner Core []: 0.000000 
(MassChiOC) Mass of Chi in Outer Core []: 1.843482e+23 
(MassChiIC) Mass of Chi in Inner Core []: 0.000000 
(DTChi) Core Liquidus Depression []: 0.000000 
(CoreBuoyTherm) Core Thermal Buoyancy Flux [m^2/s^3]: -3.350859e-11 
(CoreBuoyCompo) Core Compositional Buoyancy Flux [m^2/s^3]: 0.000000 
(CoreBuoyTotal) Core Total Buoyancy Flux [m^2/s^3]: -3.350859e-11 
(GravICB) ICB Gravity []: 0.000000 
(MagMom) Core Magnetic Moment [EMAGMOM]: 0.000000 
(PresSWind) Stellar wind pressure at body []: 2.676100e-09 
(MagPauseRad) Magnetopause Radius [EMAGPAUSERAD]: 0.000000 
(ViscJumpMan) Mantle Viscosity Ratio []: 2.000000 
(EruptEff) Mantle Melt Eruption Efficiency []: 0.200000 
(TrefLind) Core Liquidus Lindeman Reference []: 5600.000000 
(DynViscUMan) Upper Mantle's Dynamic Viscosity [kg*m^2/sec^2]: 1.938278e+08 
Output Order: Time[Gyr] TMan[K] TUMan[K] TLMan[K] TCMB[K] TCore[K] HflowUMan[TW] HflowMeltMan[TW] RadPowerMan[TW] RadPowerCore[TW] RadPowerCrust[TW] HflowCMB[TW] HflowSecMan[TW] TDotMan[K/s] TDotCore[K/s] TJumpLMan[K] TJumpUMan[K] RIC[km] RayleighMan[nd] ViscUMan[m^2/s] ViscLMan[m^2/s] MeltMassFluxMan[kg/s] FMeltUMan[kg/s] MagMom[EMAGMOM] CoreBuoyTherm[m^2/s^3] CoreBuoyCompo[m^2/s^3] CoreBuoyTotal[m^2/s^3] MagPauseRad[EMAGPAUSERAD] BLUMan[km] BLLMan[km] K2[] ImK2[] SemiMajorAxis[au] Eccentricity[] ShmodUMan[] MeanMotion[/year] ViscUManArr[au^2/year] ChiOC[au^2/year] ChiIC[au^2/year] MassChiOC[Msun] MassChiIC[Msun] MassOC[Msun] MassIC[Msun] RadPowerTotal[TW] SurfEnFluxEqtide[Msun*au^2/year^2/(au^2*year)] PowerEqtide[TW] TideLock[TW] TidalQ[] SurfEnFluxTotal[W/m^2]
Grid Output Order:

----- BODY: c ----
Active Modules: EqTide RadHeat ThermInt
Module Bit Sum: 135
Color: 000000
(Mass) Mass [kg]: 1.723402e+25 
(Obliquity) Obliquity [rad]: 0.000000 
(PrecA) Body's precession angle [rad]: 0.000000 
(Xobl) Body's sin(obliquity)*cos(precession angle) []: 0.000000 
(Yobl) Body's sin(obliquity)*sin(precession angle) []: 0.000000 
(Zobl) Body's cos(obliquity) []: 1.000000 
(Radius) Radius [m]: 8.718863e+06 
(RadGyra) Radius of Gyration/Moment of Inertia Constant []: 0.500000 
(RotAngMom) Rotational Angular Momentum [kg*m^2/sec]: 2.817034e+33 
(RotKinEnergy) Body's Rotational Energy [kg*m^2/sec^2]: 1.211456e+28 
(RotVel) Rotational Velocity [m/sec]: 74.990373 
(BodyType) Type of Body (0 == planet) []: 0.000000 
(RotRate) Rotational Frequency [/sec]: 8.600935e-06 
(RotPer) Rotational Period [sec]: 7.305235e+05 
(Density) Average Density [kg/m^3]: 6207.525742 
(SurfEnFluxTotal) Total Surface Energy Flux [W/m^2]: 286.139740 
(TidalQ) Tidal Q []: 27.579829 
(ImK2) Im(k_2) []: -2.877378e-12 
(K2) k_2 []: 1.500000 
(K2Man) Real Love Number k2 Mantle []: 1.500000 
(Imk2Man) Imaginary Love Number k2 Mantle []: -2.877378e-12 
(TidalQMantle) Mantle's Tidal Q []: 27.579829 
(ViscUMan) Upper Mantle Viscosity [m^2/s]: 1.223055e+07 
(HEcc) Poincare's h (=e*sin(varpi) []: 0.000000 
(HZLimitDryRunaway) Semi-major axis of Dry Runaway HZ Limit [m]: 1.638756e+13 
(HZLimRecVenus) Recent Venus HZ Limit [m]: 1.339219e+13 
(HZLimRunaway) Runaway Greenhouse HZ Limit [m]: 1.748765e+13 
(HZLimMoistGreenhouse) Moist Greenhouse HZ Limit [m]: 1.771994e+13 
(HZLimMaxGreenhouse) Maximum Greenhouse HZ Limit [m]: 3.003605e+13 
(HZLimEarlyMars) Early Mars HZ Limit [m]: 3.277176e+13 
(Instellation) Orbit-averaged INcident STELLar radiATION [kg*m^2/sec^2/(m^2*sec)]: 1.244594e+10 
(KEcc) Poincare's k (=e*cos(varpi) []: 0.128571 
(Eccentricity) Orbital Eccentricity []: 0.128571 
(OrbEnergy) Body's Total Orbital Energy [kg*m^2/sec^2]: -2.264152e+34 
(MeanMotion) Orbital Mean Motion [/sec]: 8.600935e-06 
(OrbPeriod) Orbital Period [sec]: 7.305235e+05 
(SemiMajorAxis) Semi-major Axis [m]: 5.959979e+09 
(CriticalSemiMajorAxis) Holman & Wiegert (1999) P-type Critical Semi-major Axis [m]: -1.000000 
(COPP) Climate Obliquity Precession Parameter []: 0.000000 
(OrbAngMom) Orbital Angular Momentum [kg*m^2/sec]: 5.221200e+39 
(LongP) Body's Longitude of pericenter [rad]: 0.000000 
(TotOrbEnergy) System's Total Orbital Energy [kg*m^2/sec^2]: -4.431425e+34 
(OrbPotEnergy) Body's Orbital Potential Energy [kg*m^2/sec^2]: -4.528304e+34 
(LostEnergy) Body's Total Lost Energy [kg*m^2/sec^2]: 5.562685e-309 
----- EQTIDE PARAMETERS (c)------
(TidalRadius) In EqTide, the value of the radius that enters the tidal evolution equations. This parameter is distinct from others, such as the radius of XUV absorption or a pressure level in an atmosphere. [m]: 8.718863e+06 
(DsemiDtEqtide) Total da/dt from EqTide [m/sec]: -8.828287e-08 
(DeccDtEqtide) Total de/dt from EqTide [/sec]: -5.760249e-17 
(DMeanMotionDtEqtide) Total dMeanMotion/dt from EqTide [/sec^2]: 1.911035e-22 
(DOrbPerDtEqtide) Total dOrbPer/dt from EqTide []: -1.623144e-11 
(EccTimeEqtide) Timescale for Eccentricity Evolution (e/[de/dt]) in EqTide [sec]: 2.232046e+15 
(SemiTimeEqtide) Timescale for Semi-major Axis Evolution (a/[da/dt]) in EqTide [sec]: 6.751003e+16 
(DHEccDtEqtide) Time Rate of Change of Poincare's h in EqTide [/sec]: -0.000000 
(DKEccDtEqtide) Time Rate of Change of Poincare's k in EqTide [/sec]: -5.760249e-17 
(DXoblDtEqtide) Time Rate of Change of Laskar's X in EqTide [/sec]: 5.562685e-309 
(DYoblDtEqtide) Time Rate of Change of Laskar's Y in EqTide [/sec]: 5.562685e-309 
(DZoblDtEqtide) Time Rate of Change of Laskar's Z in EqTide [/sec]: 5.562685e-309 
(LockTime) Time when body tidally locked. [sec]: 0.000000 
(BodyDsemiDtEqtide) In EqTide, the total change in semi-major axis is due to dissipation in both bodies. This output parameter returns the change due to current body. []: -1.000000 
(BodyDeccDt) In EqTide, the total change in eccentricity is due to towrues on both bodies. This output parameter returns the change due to current body. []: -1.000000 
(DOblDtEqtide) Time Rate of Change of Obliquity in EqTide [rad/sec]: 5.562685e-309 
(DRotPerDtEqtide) Time Rate of Change of Rotation Period in EqTide []: -4.724686e-298 
(DRotRateDtEqtide) Time Rate of Change of Rotational Frequency in EqTide [/sec^2]: 5.562685e-309 
(EqRotRateDiscrete) CPL2 Discrete Equilibrium Spin Rate [/sec]: -1.000000 
(EqRotPerDiscrete) CPL2 Discrete Equilibrium Spin Period [sec]: -1.000000 
(EqRotRateCont) CPL2 Continuous Equilibrium Spin Rate [/sec]: 0.016531 
(EqRotPerCont) CPL2 Continuous Equilibrium Rotation Period [sec]: 380.074312 
(EqRotPer) Equilibrium Rotation Period [sec]: 7.305235e+05 
(EqTidePower) Equilibrium Power from Tides [/sec]: -1.000000 
(GammaRot) Gamma_Rotation [sec]: -1.000000 
(GammaOrb) Gamma_Orbital [sec]: -1.000000 
(OceanK2) Ocean's Love number k_2 []: 0.010000 
(EnvTidalQ) Envelope Tidal Q []: -1.000000 
(OceanTidalQ) Ocean Tidal Q []: -1.000000 
(TidalTau) Tidal Time Lag [sec]: 1.000000 
(TideLock) Tidally Locked? []: 1.000000 
(RotTimeEqtide) Timescale for Rotational Evolution in EqTide [sec]: 1.546184e+303 
(EnvK2) Envelope's Love number k_2 []: 0.010000 
(OblTimeEqtide) Timescale for Obliquity Evolution in EqTide []: -1.000000 
(PowerEqtide) Internal Power due to Tides in EqTide [TW]: 1.774265e-05 
(SurfEnFluxEqtide) Surface Energy Flux due to Tides in EqTide [kg*m^2/sec^2/(m^2*sec)]: 1.857330e-08 
Tidal Perturbers: sun
----- RADHEAT PARAMETERS (c)------
(26AlPowerMan) Total Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlPowerCore) Core Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlEnFlux) Surface Energy Flux from 26Al [kg*m^2/sec^2/(m^2*sec)]: -0.000000 
(D26AlPowerDt) Time Rate of Change of 26Al Power Generation []: -1.000000 
(D26AlNumManDt) Time Rate of Change of 26Al Heat Generation [/sec]: 0.000000 
(26AlMassMan) Mass of Mantle in 26Al [kg]: 0.000000 
(26AlMassCore) Mass of core in 26Al [kg]: 0.000000 
(26AlNumMan) Total Number of 26Al Atoms []: 0.000000 
(26AlNumCore) Total Core Number of 26Al Atoms []: 0.000000 
(26AlTimescale) Timescale for 26Al Power Generation []: -1.000000 
(26AlPowerTotal) Total Power from Decay of 26Al Atoms [kg*m^2/sec^3]: -0.000000 
(40KPowerMan) Total Power Generated by 40K [kg*m^2/sec^3]: 3.615780e+13 
(40KPowerCore) Core Power Generated by 40K [kg*m^2/sec^3]: 3.385730e+13 
(40KEnFlux) Surface Energy Flux from 40K [kg*m^2/sec^2/(m^2*sec)]: 0.087829 
(D40KPowerDt) Time Rate of Change of 40K Power Generation []: -1.000000 
(D40KNumManDt) Time Rate of Change of 40K Heat Generation [/sec]: -1.694596e+26 
(40KMassMan) Total Mass of 40K [kg]: 6.451091e+17 
(40KMassCore) Total Core Mass of 40K [kg]: 6.040647e+17 
(40KNumMan) Total Number of 40K Atoms []: 9.721094e+42 
(40KNumCore) Total Core Number of 40K Atoms []: 9.102600e+42 
(40KTimescale) Timescale for 40K Power Generation []: -1.000000 
(40KPowerCrust) Crust Power Generated by 40K [kg*m^2/sec^3]: 1.388590e+13 
(40KMassCrust) Total Crust Mass of 40K [kg]: 2.477452e+17 
(40KNumCrust) Total Crust Number of 40K Atoms []: 3.733251e+42 
(40KPowerTotal) Total Power from Decay of 40K Atoms [kg*m^2/sec^3]: 8.390100e+13 
(232ThPowerMan) Total Power Generated by 232Th [kg*m^2/sec^3]: 6.515750e+12 
(232ThPowerCore) Total Power Generated by 232Th [kg*m^2/sec^3]: 1.454100e+11 
(232ThEnFlux) Surface Energy Flux from 232Th [kg*m^2/sec^2/(m^2*sec)]: 0.010982 
(D232ThNumManDt) Time Rate of Change of the number of 232Th nuclei [/sec]: -9.534863e+23 
(232ThMassMan) Total Mass of 232Th [kg]: 2.342183e+17 
(232ThMassCore) Total Mass of 232Th [kg]: 5.226978e+15 
(232ThNumMan) Total Number of 232Th Atoms []: 6.078735e+41 
(232ThNumCore) Total Number of 232Th Atoms []: 1.356573e+40 
(232ThTimescale) Timescale for 232Th Power Generation []: -1.000000 
(232ThPowerCrust) Total Power Generated by 232Th [kg*m^2/sec^3]: 3.829910e+12 
(232ThMassCrust) Total Mass of 232Th [kg]: 1.376718e+17 
(232ThNumCrust) Total Number of 232Th Atoms []: 3.573036e+41 
(232ThPowerTotal) Total Power from Decay of 232Th Atoms [kg*m^2/sec^3]: 1.049107e+13 
(238UPowerMan) Total Power Generated by 238U [kg*m^2/sec^3]: 1.166910e+13 
(238UPowerCore) Total Core Power Generated by 238U [kg*m^2/sec^3]: 1.203810e+11 
(238UEnFlux) Surface Energy Flux due to 238U [kg*m^2/sec^2/(m^2*sec)]: 0.017745 
(D238UNumManDt) Time Rate of Change of the Number of 238U Nuclei [/sec]: -1.408812e+24 
(238UMassMan) Total Mass of 238U [kg]: 1.133820e+17 
(238UMassCore) Total Core Mass of 238U [kg]: 1.169673e+15 
(238UNumMan) Total Number of 238U Atoms []: 2.868305e+41 
(238UNumCore) Total Core Number of 238U Atoms []: 2.959006e+39 
(238UTimescale) Timescale for 238U Power Generation []: -1.000000 
(238UPowerCrust) Total Crust Power Generated by 238U [kg*m^2/sec^3]: 5.162370e+12 
(238UMassCrust) Total Crust Mass of 238U [kg]: 5.015980e+16 
(238UNumCrust) Total Crust Number of 238U Atoms []: 1.268928e+41 
(238UPowerTotal) Total Power from Decay of 238U Atoms [kg*m^2/sec^3]: 1.695185e+13 
(235UPowerMan) Total Power Generated by 235U [kg*m^2/sec^3]: 2.024900e+13 
(235UPowerCore) Total Core Power Generated by 235U [kg*m^2/sec^3]: 5.015860e+11 
(235UEnFlux) Surface Energy Flux due to 235U [kg*m^2/sec^2/(m^2*sec)]: 0.032598 
(D235UNumManDt) Time Rate of Change of the Number of 235U Nuclei [/sec]: -3.089017e+24 
(235UMassMan) Total Mass of 235U [kg]: 3.862657e+16 
(235UMassCore) Total Core Mass of 235U [kg]: 9.568150e+14 
(235UNumMan) Total Number of 235U Atoms []: 9.896646e+40 
(235UNumCore) Total Core Number of 235U Atoms []: 2.451489e+39 
(235UTimescale) Timescale for 235U Power Generation []: -1.000000 
(235UPowerCrust) Total Crust Power Generated by 235U [kg*m^2/sec^3]: 1.038960e+13 
(235UMassCrust) Total Crust Mass of 235U [kg]: 1.981898e+16 
(235UNumCrust) Total Crust Number of 235U Atoms []: 5.077890e+40 
(235UPowerTotal) Total Power from Decay of 235U Atoms [kg*m^2/sec^3]: 3.114019e+13 
(RadPowerMan) Total Power Generated by Radiogenic Nuclides in the mantle [TW]: 74.591650 
(RadPowerCore) Total Power Generated by Radiogenic Nuclides in Core [TW]: 34.624677 
(RadPowerCrust) Total Power Generated by Radiogenic Nuclides in the crust [TW]: 33.267780 
(RadPowerTotal) Total Power Generated by Radiogenic Nuclides in Total (M+C) [TW]: 142.484107 
(SurfEnFluxRadTotal) Total Surface Heat Flux Generated by Radiogenic Nuclides [kg*m^2/sec^2/(m^2*sec)]: 0.149155 
----- THERMINT PARAMETERS (c)------
(TMan) Mantle Temperature [K]: 3500.000000 
(TUMan) Upper Mantle Temperature [K]: 2450.000000 
(TLMan) Lower Mantle Temperature [K]: 4550.000000 
(TCore) Core Temperature [K]: 5500.000000 
(TCMB) CMB Temperature [K]: 4400.000000 
(BLUMan) Boundary Layer Thickness Upper Mantle [km]: 0.020759 
(BLLMan) Boundary Layer Thickness Lower Mantle [km]: 0.603556 
(TJumpUMan) Upper Mantle Temperature Jump [K]: 2150.000000 
(TJumpLMan) Lower Mantle Temperature Jump [K]: 150.000000 
(SignTJumpUMan) Sign of Upper Mantle Temperature Jump []: 1.000000 
(SignTJumpLMan) Sign of Lower Mantle Temperature Jump []: -1.000000 
(ViscLMan) Lower Mantle Viscosity [m^2/s]: 2.097051e+10 
(ShmodUMan) Shear Modulus Upper Mantle []: 95.354299 
(FMeltUMan) Melt Fraction Upper Mantle []: 1.000000 
(FMeltLMan) Melt Fraction Lower Mantle []: 0.807856 
(MeltfactorUMan) Melt Factor Upper Mantle []: 1.925879e+07 
(MeltfactorLMan) Melt Factor Lower Mantle []: 2.246447e+04 
(DepthMeltMan) Depth to base of Upper Mantle Melt Region []: 2.551886e+06 
(TDepthMeltMan) Temp at base of Upper Mantle Melt Region []: 3725.932721 
(TJumpMeltMan) Temp Jump across Upper Mantle Melt Region []: 2149.989620 
(MeltMassFluxMan) Mantle Melt Mass Flux [kg/s]: 9.462947e+10 
(ViscUManArr) Upper Mantle Arrhenius Viscosity [m^2/sec]: 2.355457e+14 
(RayleighMan) Mantle Rayleigh Number [nd]: 1.904937e+17 
(ViscMMan) Average (mid) Mantle Viscosity [m^2/sec]: 1.223055e+08 
(TDotMan) Change in Mantle Temperature [K/s]: -4.190393e-11 
(TDotCore) Change in Core Temperature [K/s]: 2.532624e-13 
(HfluxUMan) Heat Flux Upper Mantle []: 434.983048 
(HflowUMan) Heat Flow Upper Mantle [TW]: 2.218694e+05 
(HfluxLMan) Heat Flux Lower Mantle []: -2.485271 
(HflowLMan) Heat Flow Lower Mantle []: -3.784353e+14 
(HfluxCMB) Heat Flux Core-Mantle Boundary []: -2.485271 
(HflowCMB) Heat Flow Core-Mantle Boundary [TW]: -378.435255 
(HflowLatentMan) Latent Heat Flow Mantle []: 6.108891e+16 
(HflowMeltMan) Melt Heat Flow Mantle [TW]: 5.147345e+04 
(HflowLatentIC) Latent Heat Release at ICB []: 0.000000 
(PowerGravIC) Gravitational Power Release at ICB []: 0.000000 
(HflowSurf) Heat Flow Surface Total []: 2.733429e+17 
(HflowSecMan) Mantle Secular Heat Flow [TW]: 2.125578e+05 
(HfluxCMBAd) Adiabatic Heat Flux Core-Mantle Boundary []: 0.041915 
(HfluxCMBConv) Super-Adiabatic (convective) Heat Flux Core-Mantle Boundary []: -2.527186 
(RIC) Inner Core Radius [km]: 0.000000 
(DRICDTCMB) d(R_ic)/d(T_cmb) []: 0.000000 
(RICDot) Inner Core growth rate []: 0.000000 
(ChiOC) Light Element Concentration in Outer Core []: 0.094946 
(ChiIC) Light Element Concentration in Inner Core []: 0.000000 
(ThermConductOC) Thermal Conductivity of the Outer Core []: 110.000000 
(MassOC) Mass of Outer Core []: 1.941615e+24 
(MassIC) Mass of Inner Core []: 0.000000 
(MassChiOC) Mass of Chi in Outer Core []: 1.843482e+23 
(MassChiIC) Mass of Chi in Inner Core []: 0.000000 
(DTChi) Core Liquidus Depression []: 0.000000 
(CoreBuoyTherm) Core Thermal Buoyancy Flux [m^2/s^3]: -2.902026e-11 
(CoreBuoyCompo) Core Compositional Buoyancy Flux [m^2/s^3]: 0.000000 
(CoreBuoyTotal) Core Total Buoyancy Flux [m^2/s^3]: -2.902026e-11 
(GravICB) ICB Gravity []: 0.000000 
(MagMom) Core Magnetic Moment [EMAGMOM]: 0.000000 
(PresSWind) Stellar wind pressure at body []: 2.676100e-09 
(MagPauseRad) Magnetopause Radius [EMAGPAUSERAD]: 0.000000 
(ViscJumpMan) Mantle Viscosity Ratio []: 2.000000 
(EruptEff) Mantle Melt Eruption Efficiency []: 0.200000 
(TrefLind) Core Liquidus Lindeman Reference []: 5600.000000 
(DynViscUMan) Upper Mantle's Dynamic Viscosity [kg*m^2/sec^2]: 3.057639e+08 
Output Order: Time[Gyr] TMan[K] TUMan[K] TLMan[K] TCMB[K] TCore[K] HflowUMan[TW] HflowMeltMan[TW] RadPowerMan[TW] RadPowerCore[TW] RadPowerCrust[TW] HflowCMB[TW] HflowSecMan[TW] TDotMan[K/s] TDotCore[K/s] TJumpLMan[K] TJumpUMan[K] RIC[km] RayleighMan[nd] ViscUMan[m^2/s] ViscLMan[m^2/s] MeltMassFluxMan[kg/s] FMeltUMan[kg/s] MagMom[EMAGMOM] CoreBuoyTherm[m^2/s^3] CoreBuoyCompo[m^2/s^3] CoreBuoyTotal[m^2/s^3] MagPauseRad[EMAGPAUSERAD] BLUMan[km] BLLMan[km] K2[] ImK2[] SemiMajorAxis[au] Eccentricity[] ShmodUMan[] MeanMotion[/year] ViscUManArr[au^2/year] ChiOC[au^2/year] ChiIC[au^2/year] MassChiOC[Msun] MassChiIC[Msun] MassOC[Msun] MassIC[Msun] RadPowerTotal[TW] SurfEnFluxEqtide[Msun*au^2/year^2/(au^2*year)] PowerEqtide[TW] TideLock[TW] TidalQ[] SurfEnFluxTotal[W/m^2]
Grid Output Order:



---- FINAL SYSTEM PROPERTIES ----
(Age) System Age [sec]: 2.272147e+17 
(Time) Simulation Time [sec]: 2.272147e+17 
(TotAngMom) Total Angular Momentum [kg*m^2/sec]: 5.681774e+40 
(TotEnergy) Total System Energy [kg*m^2/sec^2]: -2.036613e+40 
(PotEnergy) Body's non-orbital Potential Energy [kg*m^2/sec^2]: -2.036790e+40 
(KinEnergy) Body's non-orbital Kinetic Energy [kg*m^2/sec^2]: 2.790227e+32 
(DeltaTime) Average Timestep Over Last Output Interval [sec]: 3.170216e+07 

----- BODY: sun ----
Active Modules: EqTide STELLAR
Module Bit Sum: 67
Color: 000000
(Mass) Mass [kg]: 2.346331e+29 
(Obliquity) Obliquity [rad]: 0.000000 
(PrecA) Body's precession angle [rad]: 0.785398 
(Xobl) Body's sin(obliquity)*cos(precession angle) []: 2.527848e-291 
(Yobl) Body's sin(obliquity)*sin(precession angle) []: 2.527848e-291 
(Zobl) Body's cos(obliquity) []: 1.000000 
(Radius) Radius [m]: 1.082400e+08 
(RadGyra) Radius of Gyration/Moment of Inertia Constant []: 0.500000 
(RotAngMom) Rotational Angular Momentum [kg*m^2/sec]: 6.192804e+38 
(RotKinEnergy) Body's Rotational Energy [kg*m^2/sec^2]: 2.790227e+32 
(RotVel) Rotational Velocity [m/sec]: 97.537168 
(BodyType) Type of Body (0 == planet) []: 0.000000 
(RotRate) Rotational Frequency [/sec]: 9.011191e-07 
(RotPer) Rotational Period [sec]: 6.972647e+06 
(Density) Average Density [kg/m^3]: 4.417095e+04 
(SurfEnFluxTotal) Total Surface Energy Flux [kg*m^2/sec^2/(m^2*sec)]: 0.000000 
(TidalQ) Tidal Q []: 1.000000e+06 
(ImK2) Im(k_2) []: -1.500000e-06 
(K2) k_2 []: 1.500000 
(K2Man) Real Love Number k2 Mantle []: 0.010000 
(Imk2Man) Imaginary Love Number k2 Mantle []: 0.000000 
(TidalQMantle) Mantle's Tidal Q []: 100.000000 
(HEcc) Poincare's h (=e*sin(varpi) []: 0.000000 
(HZLimitDryRunaway) Semi-major axis of Dry Runaway HZ Limit [m]: 1.625155e+13 
(HZLimRecVenus) Recent Venus HZ Limit [m]: 1.339219e+13 
(HZLimRunaway) Runaway Greenhouse HZ Limit [m]: 1.748765e+13 
(HZLimMoistGreenhouse) Moist Greenhouse HZ Limit [m]: 1.771994e+13 
(HZLimMaxGreenhouse) Maximum Greenhouse HZ Limit [m]: 3.003605e+13 
(HZLimEarlyMars) Early Mars HZ Limit [m]: 3.277176e+13 
(Instellation) Orbit-averaged INcident STELLar radiATION [kg*m^2/sec^2/(m^2*sec)]: -1.000000 
(KEcc) Poincare's k (=e*cos(varpi) []: 0.000000 
(Eccentricity) Orbital Eccentricity []: -1.000000 
(OrbEnergy) Body's Total Orbital Energy [kg*m^2/sec^2]: 0.000000 
(MeanMotion) Orbital Mean Motion [/sec]: -1.000000 
(OrbPeriod) Orbital Period [sec]: -1.000000 
(SemiMajorAxis) Semi-major Axis [m]: -1.000000 
(CriticalSemiMajorAxis) Holman & Wiegert (1999) P-type Critical Semi-major Axis [m]: -1.000000 
(COPP) Climate Obliquity Precession Parameter []: 0.000000 
(OrbAngMom) Orbital Angular Momentum [kg*m^2/sec]: 0.000000 
(LongP) Body's Longitude of pericenter [rad]: 0.000000 
(LXUVTot) Total XUV Luminosity [kg*m^2/sec^2/(m^2*sec)]: 2.861465e+25 
(TotOrbEnergy) System's Total Orbital Energy [kg*m^2/sec^2]: -4.490944e+34 
(OrbPotEnergy) Body's Orbital Potential Energy [kg*m^2/sec^2]: -1.000000 
(LostEnergy) Body's Total Lost Energy [kg*m^2/sec^2]: 1.816941e+36 
(LostAngMom) Lost Angular Momentum due to Magnetic Braking [kg*m^2/sec]: 4.935785e+40 
----- EQTIDE PARAMETERS (sun)------
(LockTime) Time when body tidally locked. [sec]: -1.000000 
(BodyDsemiDtEqtide) In EqTide, the total change in semi-major axis is due to dissipation in both bodies. This output parameter returns the change due to current body. []: -1.000000 
(BodyDeccDt) In EqTide, the total change in eccentricity is due to towrues on both bodies. This output parameter returns the change due to current body. []: -1.000000 
(DOblDtEqtide) Time Rate of Change of Obliquity in EqTide [rad/sec]: 1.112537e-308 
(DRotPerDtEqtide) Time Rate of Change of Rotation Period in EqTide []: -8.608549e-296 
(DRotRateDtEqtide) Time Rate of Change of Rotational Frequency in EqTide [/sec^2]: 1.112537e-308 
(EqRotRateDiscrete) CPL2 Discrete Equilibrium Spin Rate [/sec]: -1.000000 
(EqRotPerDiscrete) CPL2 Discrete Equilibrium Spin Period [sec]: -1.000000 
(EqRotRateCont) CPL2 Continuous Equilibrium Spin Rate [/sec]: 0.000000 
(EqRotPerCont) CPL2 Continuous Equilibrium Rotation Period [sec]: inf 
(EqRotPer) Equilibrium Rotation Period [sec]: 2.323551e+05 
(EqTidePower) Equilibrium Power from Tides [/sec]: -1.000000 
(GammaRot) Gamma_Rotation [sec]: -1.000000 
(GammaOrb) Gamma_Orbital [sec]: -1.000000 
(OceanK2) Ocean's Love number k_2 []: 0.010000 
(EnvTidalQ) Envelope Tidal Q []: -1.000000 
(OceanTidalQ) Ocean Tidal Q []: -1.000000 
(TidalTau) Tidal Time Lag [sec]: 1.000000 
(TideLock) Tidally Locked? []: 1.000000 
(RotTimeEqtide) Timescale for Rotational Evolution in EqTide [sec]: 5.562685e-309 
(EnvK2) Envelope's Love number k_2 []: 0.010000 
(OblTimeEqtide) Timescale for Obliquity Evolution in EqTide []: -1.000000 
(PowerEqtide) Internal Power due to Tides in EqTide [kg*m^2/sec^3]: 0.000000 
(SurfEnFluxEqtide) Surface Energy Flux due to Tides in EqTide [kg*m^2/sec^2/(m^2*sec)]: 0.000000 
Tidal Perturbers: b, c
----- STELLAR PARAMETERS (sun)------
(Luminosity) Luminosity [kg*m^2/sec^3]: 5.509440e+30 
(LXUVStellar) Base X-ray/XUV Luminosity [kg*m^2/sec^3]: 2.861465e+25 
(Temperature) Effective Temperature [K]: 5778.000000 
(LXUVFrac) Fraction of luminosity in XUV []: 5.193750e-06 
(RossbyNumber) Rossby Number []: 6.315705 
(DRotPerDtStellar) Time Rate of Change of Rotation Period in STELLAR []: 1.401182e-11 
Output Order:
Grid Output Order:

----- BODY: b ----
Active Modules: EqTide RadHeat ThermInt
Module Bit Sum: 135
Color: 000000
(Mass) Mass [kg]: 7.763842e+24 
(Obliquity) Obliquity [rad]: 0.000000 
(PrecA) Body's precession angle [rad]: 0.785398 
(Xobl) Body's sin(obliquity)*cos(precession angle) []: 1.263924e-291 
(Yobl) Body's sin(obliquity)*sin(precession angle) []: 1.263924e-291 
(Zobl) Body's cos(obliquity) []: 1.000000 
(Radius) Radius [m]: 8.419092e+06 
(RadGyra) Radius of Gyration/Moment of Inertia Constant []: 0.500000 
(RotAngMom) Rotational Angular Momentum [kg*m^2/sec]: 3.720273e+33 
(RotKinEnergy) Body's Rotational Energy [kg*m^2/sec^2]: 5.030052e+28 
(RotVel) Rotational Velocity [m/sec]: 227.663229 
(BodyType) Type of Body (0 == planet) []: 0.000000 
(RotRate) Rotational Frequency [/sec]: 2.704130e-05 
(RotPer) Rotational Period [sec]: 2.323551e+05 
(Density) Average Density [kg/m^3]: 3105.934567 
(SurfEnFluxTotal) Total Surface Energy Flux [W/m^2]: 0.028691 
(TidalQ) Tidal Q []: 995.805245 
(ImK2) Im(k_2) []: -0.000283 
(K2) k_2 []: 1.123729 
(K2Man) Real Love Number k2 Mantle []: 1.123729 
(Imk2Man) Imaginary Love Number k2 Mantle []: -0.000283 
(TidalQMantle) Mantle's Tidal Q []: 995.805245 
(ViscUMan) Upper Mantle Viscosity [m^2/s]: 8.878054e+17 
(HEcc) Poincare's h (=e*sin(varpi) []: 0.000000 
(HZLimitDryRunaway) Semi-major axis of Dry Runaway HZ Limit [m]: 1.625155e+13 
(HZLimRecVenus) Recent Venus HZ Limit [m]: 1.339219e+13 
(HZLimRunaway) Runaway Greenhouse HZ Limit [m]: 1.748765e+13 
(HZLimMoistGreenhouse) Moist Greenhouse HZ Limit [m]: 1.771994e+13 
(HZLimMaxGreenhouse) Maximum Greenhouse HZ Limit [m]: 3.003605e+13 
(HZLimEarlyMars) Early Mars HZ Limit [m]: 3.277176e+13 
(Instellation) Orbit-averaged INcident STELLar radiATION [kg*m^2/sec^2/(m^2*sec)]: 5.684982e+10 
(KEcc) Poincare's k (=e*cos(varpi) []: 0.000000 
(Eccentricity) Orbital Eccentricity []: 0.000000 
(OrbEnergy) Body's Total Orbital Energy [kg*m^2/sec^2]: -2.189052e+34 
(MeanMotion) Orbital Mean Motion [/sec]: 2.704130e-05 
(OrbPeriod) Orbital Period [sec]: 2.323551e+05 
(SemiMajorAxis) Semi-major Axis [m]: 2.777054e+09 
(CriticalSemiMajorAxis) Holman & Wiegert (1999) P-type Critical Semi-major Axis [m]: -1.000000 
(COPP) Climate Obliquity Precession Parameter []: 0.000000 
(OrbAngMom) Orbital Angular Momentum [kg*m^2/sec]: 1.619043e+39 
(LongP) Body's Longitude of pericenter [rad]: 0.000000 
(TotOrbEnergy) System's Total Orbital Energy [kg*m^2/sec^2]: -4.490944e+34 
(OrbPotEnergy) Body's Orbital Potential Energy [kg*m^2/sec^2]: -4.378104e+34 
(LostEnergy) Body's Total Lost Energy [kg*m^2/sec^2]: 1.263924e-291 
----- EQTIDE PARAMETERS (b)------
(TidalRadius) In EqTide, the value of the radius that enters the tidal evolution equations. This parameter is distinct from others, such as the radius of XUV absorption or a pressure level in an atmosphere. [m]: 8.419092e+06 
(DsemiDtEqtide) Total da/dt from EqTide [m/sec]: -0.000000 
(DeccDtEqtide) Total de/dt from EqTide [/sec]: -0.000000 
(DMeanMotionDtEqtide) Total dMeanMotion/dt from EqTide [/sec^2]: 0.000000 
(DOrbPerDtEqtide) Total dOrbPer/dt from EqTide []: -0.000000 
(EccTimeEqtide) Timescale for Eccentricity Evolution (e/[de/dt]) in EqTide [sec]: 0.000000 
(SemiTimeEqtide) Timescale for Semi-major Axis Evolution (a/[da/dt]) in EqTide [sec]: 0.000000 
(DHEccDtEqtide) Time Rate of Change of Poincare's h in EqTide [/sec]: -0.000000 
(DKEccDtEqtide) Time Rate of Change of Poincare's k in EqTide [/sec]: -0.000000 
(DXoblDtEqtide) Time Rate of Change of Laskar's X in EqTide [/sec]: 5.562685e-309 
(DYoblDtEqtide) Time Rate of Change of Laskar's Y in EqTide [/sec]: 5.562685e-309 
(DZoblDtEqtide) Time Rate of Change of Laskar's Z in EqTide [/sec]: 5.562685e-309 
(LockTime) Time when body tidally locked. [sec]: 0.000000 
(BodyDsemiDtEqtide) In EqTide, the total change in semi-major axis is due to dissipation in both bodies. This output parameter returns the change due to current body. []: -1.000000 
(BodyDeccDt) In EqTide, the total change in eccentricity is due to towrues on both bodies. This output parameter returns the change due to current body. []: -1.000000 
(DOblDtEqtide) Time Rate of Change of Obliquity in EqTide [rad/sec]: 5.562685e-309 
(DRotPerDtEqtide) Time Rate of Change of Rotation Period in EqTide []: -4.779792e-299 
(DRotRateDtEqtide) Time Rate of Change of Rotational Frequency in EqTide [/sec^2]: 5.562685e-309 
(EqRotRateDiscrete) CPL2 Discrete Equilibrium Spin Rate [/sec]: -1.000000 
(EqRotPerDiscrete) CPL2 Discrete Equilibrium Spin Period [sec]: -1.000000 
(EqRotRateCont) CPL2 Continuous Equilibrium Spin Rate [/sec]: 0.000000 
(EqRotPerCont) CPL2 Continuous Equilibrium Rotation Period [sec]: inf 
(EqRotPer) Equilibrium Rotation Period [sec]: 2.323551e+05 
(EqTidePower) Equilibrium Power from Tides [/sec]: -1.000000 
(GammaRot) Gamma_Rotation [sec]: -1.000000 
(GammaOrb) Gamma_Orbital [sec]: -1.000000 
(OceanK2) Ocean's Love number k_2 []: 0.010000 
(EnvTidalQ) Envelope Tidal Q []: -1.000000 
(OceanTidalQ) Ocean Tidal Q []: -1.000000 
(TidalTau) Tidal Time Lag [sec]: 1.000000 
(TideLock) Tidally Locked? []: 1.000000 
(RotTimeEqtide) Timescale for Rotational Evolution in EqTide [sec]: 4.861197e+303 
(EnvK2) Envelope's Love number k_2 []: 0.010000 
(OblTimeEqtide) Timescale for Obliquity Evolution in EqTide []: -1.000000 
(PowerEqtide) Internal Power due to Tides in EqTide [TW]: 0.000000 
(SurfEnFluxEqtide) Surface Energy Flux due to Tides in EqTide [kg*m^2/sec^2/(m^2*sec)]: 0.000000 
Tidal Perturbers: sun
----- RADHEAT PARAMETERS (b)------
(26AlPowerMan) Total Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlPowerCore) Core Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlEnFlux) Surface Energy Flux from 26Al [kg*m^2/sec^2/(m^2*sec)]: -0.000000 
(D26AlPowerDt) Time Rate of Change of 26Al Power Generation []: -1.000000 
(D26AlNumManDt) Time Rate of Change of 26Al Heat Generation [/sec]: 0.000000 
(26AlMassMan) Mass of Mantle in 26Al [kg]: 0.000000 
(26AlMassCore) Mass of core in 26Al [kg]: 0.000000 
(26AlNumMan) Total Number of 26Al Atoms []: 0.000000 
(26AlNumCore) Total Core Number of 26Al Atoms []: 0.000000 
(26AlTimescale) Timescale for 26Al Power Generation []: -1.000000 
(26AlPowerTotal) Total Power from Decay of 26Al Atoms [kg*m^2/sec^3]: -0.000000 
(40KPowerMan) Total Power Generated by 40K [kg*m^2/sec^3]: 6.887008e+11 
(40KPowerCore) Core Power Generated by 40K [kg*m^2/sec^3]: 6.448829e+11 
(40KEnFlux) Surface Energy Flux from 40K [kg*m^2/sec^2/(m^2*sec)]: 0.001794 
(D40KPowerDt) Time Rate of Change of 40K Power Generation []: -1.000000 
(D40KNumManDt) Time Rate of Change of 40K Heat Generation [/sec]: -3.227711e+24 
(40KMassMan) Total Mass of 40K [kg]: 1.227071e+16 
(40KMassCore) Total Core Mass of 40K [kg]: 1.149000e+16 
(40KNumMan) Total Number of 40K Atoms []: 1.849063e+41 
(40KNumCore) Total Core Number of 40K Atoms []: 1.731419e+41 
(40KTimescale) Timescale for 40K Power Generation []: -1.000000 
(40KPowerCrust) Crust Power Generated by 40K [kg*m^2/sec^3]: 2.644859e+11 
(40KMassCrust) Total Crust Mass of 40K [kg]: 4.712397e+15 
(40KNumCrust) Total Crust Number of 40K Atoms []: 7.101071e+40 
(40KPowerTotal) Total Power from Decay of 40K Atoms [kg*m^2/sec^3]: 1.598070e+12 
(232ThPowerMan) Total Power Generated by 232Th [kg*m^2/sec^3]: 4.562279e+12 
(232ThPowerCore) Total Power Generated by 232Th [kg*m^2/sec^3]: 1.018150e+11 
(232ThEnFlux) Surface Energy Flux from 232Th [kg*m^2/sec^2/(m^2*sec)]: 0.008247 
(D232ThNumManDt) Time Rate of Change of the number of 232Th nuclei [/sec]: -6.676239e+23 
(232ThMassMan) Total Mass of 232Th [kg]: 1.639977e+17 
(232ThMassCore) Total Mass of 232Th [kg]: 3.659887e+15 
(232ThNumMan) Total Number of 232Th Atoms []: 4.256280e+41 
(232ThNumCore) Total Number of 232Th Atoms []: 9.498610e+39 
(232ThTimescale) Timescale for 232Th Power Generation []: -1.000000 
(232ThPowerCrust) Total Power Generated by 232Th [kg*m^2/sec^3]: 2.681674e+12 
(232ThMassCrust) Total Mass of 232Th [kg]: 9.639665e+16 
(232ThNumCrust) Total Number of 232Th Atoms []: 2.501810e+41 
(232ThPowerTotal) Total Power from Decay of 232Th Atoms [kg*m^2/sec^3]: 7.345768e+12 
(238UPowerMan) Total Power Generated by 238U [kg*m^2/sec^3]: 3.822652e+12 
(238UPowerCore) Total Core Power Generated by 238U [kg*m^2/sec^3]: 3.943531e+10 
(238UEnFlux) Surface Energy Flux due to 238U [kg*m^2/sec^2/(m^2*sec)]: 0.006235 
(D238UNumManDt) Time Rate of Change of the Number of 238U Nuclei [/sec]: -4.615092e+23 
(238UMassMan) Total Mass of 238U [kg]: 3.714194e+16 
(238UMassCore) Total Core Mass of 238U [kg]: 3.831644e+14 
(238UNumMan) Total Number of 238U Atoms []: 9.396062e+40 
(238UNumCore) Total Core Number of 238U Atoms []: 9.693184e+38 
(238UTimescale) Timescale for 238U Power Generation []: -1.000000 
(238UPowerCrust) Total Crust Power Generated by 238U [kg*m^2/sec^3]: 1.691128e+12 
(238UMassCrust) Total Crust Mass of 238U [kg]: 1.643147e+16 
(238UNumCrust) Total Crust Number of 238U Atoms []: 4.156786e+40 
(238UPowerTotal) Total Power from Decay of 238U Atoms [kg*m^2/sec^3]: 5.553215e+12 
(235UPowerMan) Total Power Generated by 235U [kg*m^2/sec^3]: 1.684175e+10 
(235UPowerCore) Total Core Power Generated by 235U [kg*m^2/sec^3]: 4.171854e+08 
(235UEnFlux) Surface Energy Flux due to 235U [kg*m^2/sec^2/(m^2*sec)]: 2.907800e-05 
(D235UNumManDt) Time Rate of Change of the Number of 235U Nuclei [/sec]: -2.569236e+21 
(235UMassMan) Total Mass of 235U [kg]: 3.035300e+13 
(235UMassCore) Total Core Mass of 235U [kg]: 7.518711e+11 
(235UNumMan) Total Number of 235U Atoms []: 7.776845e+37 
(235UNumCore) Total Core Number of 235U Atoms []: 1.926395e+36 
(235UTimescale) Timescale for 235U Power Generation []: -1.000000 
(235UPowerCrust) Total Crust Power Generated by 235U [kg*m^2/sec^3]: 8.641368e+09 
(235UMassCrust) Total Crust Mass of 235U [kg]: 1.557388e+13 
(235UNumCrust) Total Crust Number of 235U Atoms []: 3.990237e+37 
(235UPowerTotal) Total Power from Decay of 235U Atoms [kg*m^2/sec^3]: 2.590030e+10 
(RadPowerMan) Total Power Generated by Radiogenic Nuclides in the mantle [TW]: 9.090473 
(RadPowerCore) Total Power Generated by Radiogenic Nuclides in Core [TW]: 0.786550 
(RadPowerCrust) Total Power Generated by Radiogenic Nuclides in the crust [TW]: 4.645930 
(RadPowerTotal) Total Power Generated by Radiogenic Nuclides in Total (M+C) [TW]: 14.523166 
(SurfEnFluxRadTotal) Total Surface Heat Flux Generated by Radiogenic Nuclides [kg*m^2/sec^2/(m^2*sec)]: 0.016305 
----- THERMINT PARAMETERS (b)------
(TMan) Mantle Temperature [K]: 2201.128025 
(TUMan) Upper Mantle Temperature [K]: 1540.789617 
(TLMan) Lower Mantle Temperature [K]: 2861.466432 
(TCore) Core Temperature [K]: 4948.138964 
(TCMB) CMB Temperature [K]: 3958.511171 
(BLUMan) Boundary Layer Thickness Upper Mantle [km]: 104.012627 
(BLLMan) Boundary Layer Thickness Lower Mantle [km]: 136.538146 
(TJumpUMan) Upper Mantle Temperature Jump [K]: 1240.789617 
(TJumpLMan) Lower Mantle Temperature Jump [K]: 1097.044739 
(SignTJumpUMan) Sign of Upper Mantle Temperature Jump []: 1.000000 
(SignTJumpLMan) Sign of Lower Mantle Temperature Jump []: 1.000000 
(ViscLMan) Lower Mantle Viscosity [m^2/s]: 1.775611e+18 
(ShmodUMan) Shear Modulus Upper Mantle []: 6.027136e+11 
(FMeltUMan) Melt Fraction Upper Mantle []: 0.000000 
(FMeltLMan) Melt Fraction Lower Mantle []: 0.000000 
(MeltfactorUMan) Melt Factor Upper Mantle []: 1.000000 
(MeltfactorLMan) Melt Factor Lower Mantle []: 1.000000 
(DepthMeltMan) Depth to base of Upper Mantle Melt Region []: 0.000000 
(TDepthMeltMan) Temp at base of Upper Mantle Melt Region []: 0.000000 
(TJumpMeltMan) Temp Jump across Upper Mantle Melt Region []: -300.000000 
(MeltMassFluxMan) Mantle Melt Mass Flux [kg/s]: 0.000000 
(ViscUManArr) Upper Mantle Arrhenius Viscosity [m^2/sec]: 8.878054e+17 
(RayleighMan) Mantle Rayleigh Number [nd]: 2.667441e+06 
(ViscMMan) Average (mid) Mantle Viscosity [m^2/sec]: 8.878054e+18 
(TDotMan) Change in Mantle Temperature [K/s]: -6.817959e-16 
(TDotCore) Change in Core Temperature [K/s]: -1.064128e-15 
(HfluxUMan) Heat Flux Upper Mantle []: 0.050103 
(HflowUMan) Heat Flow Upper Mantle [TW]: 25.555622 
(HfluxLMan) Heat Flux Lower Mantle []: 0.080347 
(HflowLMan) Heat Flow Lower Mantle []: 1.223456e+13 
(HfluxCMB) Heat Flux Core-Mantle Boundary []: 0.080347 
(HflowCMB) Heat Flow Core-Mantle Boundary [TW]: 12.234557 
(HflowLatentMan) Latent Heat Flow Mantle []: 7.720587e+11 
(HflowMeltMan) Melt Heat Flow Mantle [TW]: -0.000000 
(HflowLatentIC) Latent Heat Release at ICB []: 1.083989e+13 
(PowerGravIC) Gravitational Power Release at ICB []: 4.335954e+12 
(HflowSurf) Heat Flow Surface Total []: 2.555562e+13 
(HflowSecMan) Mantle Secular Heat Flow [TW]: 3.458411 
(HfluxCMBAd) Adiabatic Heat Flux Core-Mantle Boundary []: 0.033926 
(HfluxCMBConv) Super-Adiabatic (convective) Heat Flux Core-Mantle Boundary []: 0.046421 
(RIC) Inner Core Radius [km]: 2881.574318 
(DRICDTCMB) d(R_ic)/d(T_cmb) []: -8010.171752 
(RICDot) Inner Core growth rate []: 6.819157e-12 
(ChiOC) Light Element Concentration in Outer Core []: 0.001408 
(ChiIC) Light Element Concentration in Inner Core []: 0.140797 
(ThermConductOC) Thermal Conductivity of the Outer Core []: 98.962779 
(MassOC) Mass of Outer Core []: 6.386843e+23 
(MassIC) Mass of Inner Core []: 1.302931e+24 
(MassChiOC) Mass of Chi in Outer Core []: 8.992496e+20 
(MassChiIC) Mass of Chi in Inner Core []: 1.834490e+23 
(DTChi) Core Liquidus Depression []: 0.000000 
(CoreBuoyTherm) Core Thermal Buoyancy Flux [m^2/s^3]: 5.330676e-13 
(CoreBuoyCompo) Core Compositional Buoyancy Flux [m^2/s^3]: 2.611858e-12 
(CoreBuoyTotal) Core Total Buoyancy Flux [m^2/s^3]: 3.144926e-12 
(GravICB) ICB Gravity []: 8.774688 
(MagMom) Core Magnetic Moment [EMAGMOM]: 0.838894 
(PresSWind) Stellar wind pressure at body []: 2.676100e-09 
(MagPauseRad) Magnetopause Radius [EMAGPAUSERAD]: 0.943177 
(ViscJumpMan) Mantle Viscosity Ratio []: 2.000000 
(EruptEff) Mantle Melt Eruption Efficiency []: 0.200000 
(TrefLind) Core Liquidus Lindeman Reference []: 5600.000000 
(DynViscUMan) Upper Mantle's Dynamic Viscosity [kg*m^2/sec^2]: 2.219514e+19 
Output Order: Time[Gyr] TMan[K] TUMan[K] TLMan[K] TCMB[K] TCore[K] HflowUMan[TW] HflowMeltMan[TW] RadPowerMan[TW] RadPowerCore[TW] RadPowerCrust[TW] HflowCMB[TW] HflowSecMan[TW] TDotMan[K/s] TDotCore[K/s] TJumpLMan[K] TJumpUMan[K] RIC[km] RayleighMan[nd] ViscUMan[m^2/s] ViscLMan[m^2/s] MeltMassFluxMan[kg/s] FMeltUMan[kg/s] MagMom[EMAGMOM] CoreBuoyTherm[m^2/s^3] CoreBuoyCompo[m^2/s^3] CoreBuoyTotal[m^2/s^3] MagPauseRad[EMAGPAUSERAD] BLUMan[km] BLLMan[km] K2[] ImK2[] SemiMajorAxis[au] Eccentricity[] ShmodUMan[] MeanMotion[/year] ViscUManArr[au^2/year] ChiOC[au^2/year] ChiIC[au^2/year] MassChiOC[Msun] MassChiIC[Msun] MassOC[Msun] MassIC[Msun] RadPowerTotal[TW] SurfEnFluxEqtide[Msun*au^2/year^2/(au^2*year)] PowerEqtide[TW] TideLock[TW] TidalQ[] SurfEnFluxTotal[W/m^2]
Grid Output Order:

----- BODY: c ----
Active Modules: EqTide RadHeat ThermInt
Module Bit Sum: 135
Color: 000000
(Mass) Mass [kg]: 1.723402e+25 
(Obliquity) Obliquity [rad]: 0.000000 
(PrecA) Body's precession angle [rad]: 0.785398 
(Xobl) Body's sin(obliquity)*cos(precession angle) []: 1.263924e-291 
(Yobl) Body's sin(obliquity)*sin(precession angle) []: 1.263924e-291 
(Zobl) Body's cos(obliquity) []: 1.000000 
(Radius) Radius [m]: 8.718863e+06 
(RadGyra) Radius of Gyration/Moment of Inertia Constant []: 0.500000 
(RotAngMom) Rotational Angular Momentum [kg*m^2/sec]: 2.887759e+33 
(RotKinEnergy) Body's Rotational Energy [kg*m^2/sec^2]: 1.273050e+28 
(RotVel) Rotational Velocity [m/sec]: 76.873110 
(BodyType) Type of Body (0 == planet) []: 0.000000 
(RotRate) Rotational Frequency [/sec]: 8.816874e-06 
(RotPer) Rotational Period [sec]: 7.126319e+05 
(Density) Average Density [kg/m^3]: 6207.525742 
(SurfEnFluxTotal) Total Surface Energy Flux [W/m^2]: 0.024996 
(TidalQ) Tidal Q []: 575.437884 
(ImK2) Im(k_2) []: -0.000420 
(K2) k_2 []: 1.196866 
(K2Man) Real Love Number k2 Mantle []: 1.196866 
(Imk2Man) Imaginary Love Number k2 Mantle []: -0.000420 
(TidalQMantle) Mantle's Tidal Q []: 575.437884 
(ViscUMan) Upper Mantle Viscosity [m^2/s]: 1.190162e+18 
(HEcc) Poincare's h (=e*sin(varpi) []: 0.000000 
(HZLimitDryRunaway) Semi-major axis of Dry Runaway HZ Limit [m]: 1.625155e+13 
(HZLimRecVenus) Recent Venus HZ Limit [m]: 1.339219e+13 
(HZLimRunaway) Runaway Greenhouse HZ Limit [m]: 1.748765e+13 
(HZLimMoistGreenhouse) Moist Greenhouse HZ Limit [m]: 1.771994e+13 
(HZLimMaxGreenhouse) Maximum Greenhouse HZ Limit [m]: 3.003605e+13 
(HZLimEarlyMars) Early Mars HZ Limit [m]: 3.277176e+13 
(Instellation) Orbit-averaged INcident STELLar radiATION [kg*m^2/sec^2/(m^2*sec)]: 1.275753e+10 
(KEcc) Poincare's k (=e*cos(varpi) []: 7.637466e-05 
(Eccentricity) Orbital Eccentricity []: 7.637466e-05 
(OrbEnergy) Body's Total Orbital Energy [kg*m^2/sec^2]: -2.301892e+34 
(MeanMotion) Orbital Mean Motion [/sec]: 8.816874e-06 
(OrbPeriod) Orbital Period [sec]: 7.126319e+05 
(SemiMajorAxis) Semi-major Axis [m]: 5.862265e+09 
(CriticalSemiMajorAxis) Holman & Wiegert (1999) P-type Critical Semi-major Axis [m]: -1.000000 
(COPP) Climate Obliquity Precession Parameter []: 0.000000 
(OrbAngMom) Orbital Angular Momentum [kg*m^2/sec]: 5.221560e+39 
(LongP) Body's Longitude of pericenter [rad]: 0.000000 
(TotOrbEnergy) System's Total Orbital Energy [kg*m^2/sec^2]: -4.490944e+34 
(OrbPotEnergy) Body's Orbital Potential Energy [kg*m^2/sec^2]: -4.603783e+34 
(LostEnergy) Body's Total Lost Energy [kg*m^2/sec^2]: 1.263924e-291 
----- EQTIDE PARAMETERS (c)------
(TidalRadius) In EqTide, the value of the radius that enters the tidal evolution equations. This parameter is distinct from others, such as the radius of XUV absorption or a pressure level in an atmosphere. [m]: 8.718863e+06 
(DsemiDtEqtide) Total da/dt from EqTide [m/sec]: -1.304726e-15 
(DeccDtEqtide) Total de/dt from EqTide [/sec]: -1.456997e-21 
(DMeanMotionDtEqtide) Total dMeanMotion/dt from EqTide [/sec^2]: 2.943472e-30 
(DOrbPerDtEqtide) Total dOrbPer/dt from EqTide []: -2.379088e-19 
(EccTimeEqtide) Timescale for Eccentricity Evolution (e/[de/dt]) in EqTide [sec]: 5.241922e+16 
(SemiTimeEqtide) Timescale for Semi-major Axis Evolution (a/[da/dt]) in EqTide [sec]: 4.493099e+24 
(DHEccDtEqtide) Time Rate of Change of Poincare's h in EqTide [/sec]: -0.000000 
(DKEccDtEqtide) Time Rate of Change of Poincare's k in EqTide [/sec]: -1.456997e-21 
(DXoblDtEqtide) Time Rate of Change of Laskar's X in EqTide [/sec]: 5.562685e-309 
(DYoblDtEqtide) Time Rate of Change of Laskar's Y in EqTide [/sec]: 5.562685e-309 
(DZoblDtEqtide) Time Rate of Change of Laskar's Z in EqTide [/sec]: 5.562685e-309 
(LockTime) Time when body tidally locked. [sec]: 0.000000 
(BodyDsemiDtEqtide) In EqTide, the total change in semi-major axis is due to dissipation in both bodies. This output parameter returns the change due to current body. []: -1.000000 
(BodyDeccDt) In EqTide, the total change in eccentricity is due to towrues on both bodies. This output parameter returns the change due to current body. []: -1.000000 
(DOblDtEqtide) Time Rate of Change of Obliquity in EqTide [rad/sec]: 5.562685e-309 
(DRotPerDtEqtide) Time Rate of Change of Rotation Period in EqTide []: -4.496091e-298 
(DRotRateDtEqtide) Time Rate of Change of Rotational Frequency in EqTide [/sec^2]: 5.562685e-309 
(EqRotRateDiscrete) CPL2 Discrete Equilibrium Spin Rate [/sec]: -1.000000 
(EqRotPerDiscrete) CPL2 Discrete Equilibrium Spin Period [sec]: -1.000000 
(EqRotRateCont) CPL2 Continuous Equilibrium Spin Rate [/sec]: 5.833398e-09 
(EqRotPerCont) CPL2 Continuous Equilibrium Rotation Period [sec]: 1.077106e+09 
(EqRotPer) Equilibrium Rotation Period [sec]: 7.126319e+05 
(EqTidePower) Equilibrium Power from Tides [/sec]: -1.000000 
(GammaRot) Gamma_Rotation [sec]: -1.000000 
(GammaOrb) Gamma_Orbital [sec]: -1.000000 
(OceanK2) Ocean's Love number k_2 []: 0.010000 
(EnvTidalQ) Envelope Tidal Q []: -1.000000 
(OceanTidalQ) Ocean Tidal Q []: -1.000000 
(TidalTau) Tidal Time Lag [sec]: 1.000000 
(TideLock) Tidally Locked? []: 1.000000 
(RotTimeEqtide) Timescale for Rotational Evolution in EqTide [sec]: 1.585003e+303 
(EnvK2) Envelope's Love number k_2 []: 0.010000 
(OblTimeEqtide) Timescale for Obliquity Evolution in EqTide []: -1.000000 
(PowerEqtide) Internal Power due to Tides in EqTide [TW]: 0.001035 
(SurfEnFluxEqtide) Surface Energy Flux due to Tides in EqTide [kg*m^2/sec^2/(m^2*sec)]: 1.083768e-06 
Tidal Perturbers: sun
----- RADHEAT PARAMETERS (c)------
(26AlPowerMan) Total Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlPowerCore) Core Power Generated by 26Al [kg*m^2/sec^3]: -0.000000 
(26AlEnFlux) Surface Energy Flux from 26Al [kg*m^2/sec^2/(m^2*sec)]: -0.000000 
(D26AlPowerDt) Time Rate of Change of 26Al Power Generation []: -1.000000 
(D26AlNumManDt) Time Rate of Change of 26Al Heat Generation [/sec]: 0.000000 
(26AlMassMan) Mass of Mantle in 26Al [kg]: 0.000000 
(26AlMassCore) Mass of core in 26Al [kg]: 0.000000 
(26AlNumMan) Total Number of 26Al Atoms []: 0.000000 
(26AlNumCore) Total Core Number of 26Al Atoms []: 0.000000 
(26AlTimescale) Timescale for 26Al Power Generation []: -1.000000 
(26AlPowerTotal) Total Power from Decay of 26Al Atoms [kg*m^2/sec^3]: -0.000000 
(40KPowerMan) Total Power Generated by 40K [kg*m^2/sec^3]: 6.887008e+11 
(40KPowerCore) Core Power Generated by 40K [kg*m^2/sec^3]: 6.448829e+11 
(40KEnFlux) Surface Energy Flux from 40K [kg*m^2/sec^2/(m^2*sec)]: 0.001673 
(D40KPowerDt) Time Rate of Change of 40K Power Generation []: -1.000000 
(D40KNumManDt) Time Rate of Change of 40K Heat Generation [/sec]: -3.227711e+24 
(40KMassMan) Total Mass of 40K [kg]: 1.227071e+16 
(40KMassCore) Total Core Mass of 40K [kg]: 1.149000e+16 
(40KNumMan) Total Number of 40K Atoms []: 1.849063e+41 
(40KNumCore) Total Core Number of 40K Atoms []: 1.731419e+41 
(40KTimescale) Timescale for 40K Power Generation []: -1.000000 
(40KPowerCrust) Crust Power Generated by 40K [kg*m^2/sec^3]: 2.644859e+11 
(40KMassCrust) Total Crust Mass of 40K [kg]: 4.712397e+15 
(40KNumCrust) Total Crust Number of 40K Atoms []: 7.101071e+40 
(40KPowerTotal) Total Power from Decay of 40K Atoms [kg*m^2/sec^3]: 1.598070e+12 
(232ThPowerMan) Total Power Generated by 232Th [kg*m^2/sec^3]: 4.562279e+12 
(232ThPowerCore) Total Power Generated by 232Th [kg*m^2/sec^3]: 1.018150e+11 
(232ThEnFlux) Surface Energy Flux from 232Th [kg*m^2/sec^2/(m^2*sec)]: 0.007690 
(D232ThNumManDt) Time Rate of Change of the number of 232Th nuclei [/sec]: -6.676239e+23 
(232ThMassMan) Total Mass of 232Th [kg]: 1.639977e+17 
(232ThMassCore) Total Mass of 232Th [kg]: 3.659887e+15 
(232ThNumMan) Total Number of 232Th Atoms []: 4.256280e+41 
(232ThNumCore) Total Number of 232Th Atoms []: 9.498610e+39 
(232ThTimescale) Timescale for 232Th Power Generation []: -1.000000 
(232ThPowerCrust) Total Power Generated by 232Th [kg*m^2/sec^3]: 2.681674e+12 
(232ThMassCrust) Total Mass of 232Th [kg]: 9.639665e+16 
(232ThNumCrust) Total Number of 232Th Atoms []: 2.501810e+41 
(232ThPowerTotal) Total Power from Decay of 232Th Atoms [kg*m^2/sec^3]: 7.345768e+12 
(238UPowerMan) Total Power Generated by 238U [kg*m^2/sec^3]: 3.822652e+12 
(238UPowerCore) Total Core Power Generated by 238U [kg*m^2/sec^3]: 3.943531e+10 
(238UEnFlux) Surface Energy Flux due to 238U [kg*m^2/sec^2/(m^2*sec)]: 0.005813 
(D238UNumManDt) Time Rate of Change of the Number of 238U Nuclei [/sec]: -4.615092e+23 
(238UMassMan) Total Mass of 238U [kg]: 3.714194e+16 
(238UMassCore) Total Core Mass of 238U [kg]: 3.831644e+14 
(238UNumMan) Total Number of 238U Atoms []: 9.396062e+40 
(238UNumCore) Total Core Number of 238U Atoms []: 9.693184e+38 
(238UTimescale) Timescale for 238U Power Generation []: -1.000000 
(238UPowerCrust) Total Crust Power Generated by 238U [kg*m^2/sec^3]: 1.691128e+12 
(238UMassCrust) Total Crust Mass of 238U [kg]: 1.643147e+16 
(238UNumCrust) Total Crust Number of 238U Atoms []: 4.156786e+40 
(238UPowerTotal) Total Power from Decay of 238U Atoms [kg*m^2/sec^3]: 5.553215e+12 
(235UPowerMan) Total Power Generated by 235U [kg*m^2/sec^3]: 1.684175e+10 
(235UPowerCore) Total Core Power Generated by 235U [kg*m^2/sec^3]: 4.171854e+08 
(235UEnFlux) Surface Energy Flux due to 235U [kg*m^2/sec^2/(m^2*sec)]: 2.711286e-05 
(D235UNumManDt) Time Rate of Change of the Number of 235U Nuclei [/sec]: -2.569236e+21 
(235UMassMan) Total Mass of 235U [kg]: 3.035300e+13 
(235UMassCore) Total Core Mass of 235U [kg]: 7.518711e+11 
(235UNumMan) Total Number of 235U Atoms []: 7.776845e+37 
(235UNumCore) Total Core Number of 235U Atoms []: 1.926395e+36 
(235UTimescale) Timescale for 235U Power Generation []: -1.000000 
(235UPowerCrust) Total Crust Power Generated by 235U [kg*m^2/sec^3]: 8.641368e+09 
(235UMassCrust) Total Crust Mass of 235U [kg]: 1.557388e+13 
(235UNumCrust) Total Crust Number of 235U Atoms []: 3.990237e+37 
(235UPowerTotal) Total Power from Decay of 235U Atoms [kg*m^2/sec^3]: 2.590030e+10 
(RadPowerMan) Total Power Generated by Radiogenic Nuclides in the mantle [TW]: 9.090473 
(RadPowerCore) Total Power Generated by Radiogenic Nuclides in Core [TW]: 0.786550 
(RadPowerCrust) Total Power Generated by Radiogenic Nuclides in the crust [TW]: 4.645930 
(RadPowerTotal) Total Power Generated by Radiogenic Nuclides in Total (M+C) [TW]: 14.523166 
(SurfEnFluxRadTotal) Total Surface Heat Flux Generated by Radiogenic Nuclides [kg*m^2/sec^2/(m^2*sec)]: 0.015203 
----- THERMINT PARAMETERS (c)------
(TMan) Mantle Temperature [K]: 2241.207560 
(TUMan) Upper Mantle Temperature [K]: 1568.845292 
(TLMan) Lower Mantle Temperature [K]: 2913.569828 
(TCore) Core Temperature [K]: 4988.808736 
(TCMB) CMB Temperature [K]: 3991.046989 
(BLUMan) Boundary Layer Thickness Upper Mantle [km]: 113.835744 
(BLLMan) Boundary Layer Thickness Lower Mantle [km]: 151.456825 
(TJumpUMan) Upper Mantle Temperature Jump [K]: 1268.845292 
(TJumpLMan) Lower Mantle Temperature Jump [K]: 1077.477161 
(SignTJumpUMan) Sign of Upper Mantle Temperature Jump []: 1.000000 
(SignTJumpLMan) Sign of Lower Mantle Temperature Jump []: 1.000000 
(ViscLMan) Lower Mantle Viscosity [m^2/s]: 2.380324e+18 
(ShmodUMan) Shear Modulus Upper Mantle []: 4.558923e+11 
(FMeltUMan) Melt Fraction Upper Mantle []: 0.000000 
(FMeltLMan) Melt Fraction Lower Mantle []: 0.000000 
(MeltfactorUMan) Melt Factor Upper Mantle []: 1.000000 
(MeltfactorLMan) Melt Factor Lower Mantle []: 1.000000 
(DepthMeltMan) Depth to base of Upper Mantle Melt Region []: 0.000000 
(TDepthMeltMan) Temp at base of Upper Mantle Melt Region []: 0.000000 
(TJumpMeltMan) Temp Jump across Upper Mantle Melt Region []: -300.000000 
(MeltMassFluxMan) Mantle Melt Mass Flux [kg/s]: 0.000000 
(ViscUManArr) Upper Mantle Arrhenius Viscosity [m^2/sec]: 1.190162e+18 
(RayleighMan) Mantle Rayleigh Number [nd]: 1.997011e+06 
(ViscMMan) Average (mid) Mantle Viscosity [m^2/sec]: 1.190162e+19 
(TDotMan) Change in Mantle Temperature [K/s]: -6.372418e-16 
(TDotCore) Change in Core Temperature [K/s]: -1.022214e-15 
(HfluxUMan) Heat Flux Upper Mantle []: 0.046814 
(HflowUMan) Heat Flow Upper Mantle [TW]: 23.878354 
(HfluxLMan) Heat Flux Lower Mantle []: 0.071141 
(HflowLMan) Heat Flow Lower Mantle []: 1.083271e+13 
(HfluxCMB) Heat Flux Core-Mantle Boundary []: 0.071141 
(HflowCMB) Heat Flow Core-Mantle Boundary [TW]: 10.832710 
(HflowLatentMan) Latent Heat Flow Mantle []: 7.216033e+11 
(HflowMeltMan) Melt Heat Flow Mantle [TW]: -0.000000 
(HflowLatentIC) Latent Heat Release at ICB []: 9.351602e+12 
(PowerGravIC) Gravitational Power Release at ICB []: 3.740641e+12 
(HflowSurf) Heat Flow Surface Total []: 2.387835e+13 
(HflowSecMan) Mantle Secular Heat Flow [TW]: 3.232410 
(HfluxCMBAd) Adiabatic Heat Flux Core-Mantle Boundary []: 0.034486 
(HfluxCMBConv) Super-Adiabatic (convective) Heat Flux Core-Mantle Boundary []: 0.036655 
(RIC) Inner Core Radius [km]: 2609.143947 
(DRICDTCMB) d(R_ic)/d(T_cmb) []: -8774.424614 
(RICDot) Inner Core growth rate []: 7.175556e-12 
(ChiOC) Light Element Concentration in Outer Core []: 0.001887 
(ChiIC) Light Element Concentration in Inner Core []: 0.188695 
(ThermConductOC) Thermal Conductivity of the Outer Core []: 99.776175 
(MassOC) Mass of Outer Core []: 9.743935e+23 
(MassIC) Mass of Inner Core []: 9.672215e+23 
(MassChiOC) Mass of Chi in Outer Core []: 1.838629e+21 
(MassChiIC) Mass of Chi in Inner Core []: 1.825096e+23 
(DTChi) Core Liquidus Depression []: 0.000000 
(CoreBuoyTherm) Core Thermal Buoyancy Flux [m^2/s^3]: 4.209198e-13 
(CoreBuoyCompo) Core Compositional Buoyancy Flux [m^2/s^3]: 2.040230e-12 
(CoreBuoyTotal) Core Total Buoyancy Flux [m^2/s^3]: 2.461149e-12 
(GravICB) ICB Gravity []: 7.945109 
(MagMom) Core Magnetic Moment [EMAGMOM]: 0.875896 
(PresSWind) Stellar wind pressure at body []: 2.676100e-09 
(MagPauseRad) Magnetopause Radius [EMAGPAUSERAD]: 0.956845 
(ViscJumpMan) Mantle Viscosity Ratio []: 2.000000 
(EruptEff) Mantle Melt Eruption Efficiency []: 0.200000 
(TrefLind) Core Liquidus Lindeman Reference []: 5600.000000 
(DynViscUMan) Upper Mantle's Dynamic Viscosity [kg*m^2/sec^2]: 2.975405e+19 
Output Order: Time[Gyr] TMan[K] TUMan[K] TLMan[K] TCMB[K] TCore[K] HflowUMan[TW] HflowMeltMan[TW] RadPowerMan[TW] RadPowerCore[TW] RadPowerCrust[TW] HflowCMB[TW] HflowSecMan[TW] TDotMan[K/s] TDotCore[K/s] TJumpLMan[K] TJumpUMan[K] RIC[km] RayleighMan[nd] ViscUMan[m^2/s] ViscLMan[m^2/s] MeltMassFluxMan[kg/s] FMeltUMan[kg/s] MagMom[EMAGMOM] CoreBuoyTherm[m^2/s^3] CoreBuoyCompo[m^2/s^3] CoreBuoyTotal[m^2/s^3] MagPauseRad[EMAGPAUSERAD] BLUMan[km] BLLMan[km] K2[] ImK2[] SemiMajorAxis[au] Eccentricity[] ShmodUMan[] MeanMotion[/year] ViscUManArr[au^2/year] ChiOC[au^2/year] ChiIC[au^2/year] MassChiOC[Msun] MassChiIC[Msun] MassOC[Msun] MassIC[Msun] RadPowerTotal[TW] SurfEnFluxEqtide[Msun*au^2/year^2/(au^2*year)] PowerEqtide[TW] TideLock[TW] TidalQ[] SurfEnFluxTotal[W/m^2]
Grid Output Order: