The temperature gradient between the core of mars and its surface is approximately 0.0003 k/m. compare this temperature gradient to that of earth. what can you determine about the rate at which heat moves out of mars’s core compared to earth?
The Temperature Gradient Between The Core Of Mars And Its Surface Is Approximately 0.0003 K/M. Compare This Temperature Gradient To That Of Earth. What Can You Determine About The Rate At Which Heat Moves Out Of Mars’s Core Compared To Earth?
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The Temperature Gradient Between The Core Of Mars And Its Surface Is Approximately 0.0003 K/M. Compare This Temperature Gradient To That Of Earth. What Can You Determine About The Rate At Which Heat Moves Out Of Mars’s Core Compared To Earth?. For earth, geologists have measured the heat flow at its surface to be about 80 milliwatts/m 2. The core claim of the question is to compare the temperature gradient between mars and earth and determine the rate at which heat moves out of mars's core compared to earth.
Mars Core Temperature from ar.inspiredpencil.com
Using the low estimate of mars's gradient to be 1/4 that of earth's source, that's a bit over 6° c per km. So 55 km, 330° c. Since mars has a smaller temperature gradient compared to earth, heat moves slower out of mars's.
Compare This Temperature Gradient To That Of Earth.
Later more detailed information about mars' orbital and physical statistics. First some brief comparisons of the inner planets' properties. Mars' gradient (0.0003 k/m) is smaller than earth's gradient (0.001 k/m).
The Temperature Gradient Between Earth's Core And Crust Is Approximately 11.068 K/M.
Using the low estimate of mars's gradient to be 1/4 that of earth's source, that's a bit over 6° c per km. The core claim of the question is to compare the temperature gradient between mars and earth and determine the rate at which heat moves out of mars's core compared to earth. Since mars has a smaller temperature gradient compared to earth, heat moves slower out of mars's.
The Amount Of Heat That A Planet Produces At Its Surface Gives Us Clues About Its Interior.
Tutorial part d the temperature gradient between the core of mars and its surface is approximately 0.0003k//m. Mars's temperature gradient is much smaller (0.0003 k/m), indicating heat moves out. For earth, geologists have measured the heat flow at its surface to be about 80 milliwatts/m 2.
So 55 Km, 330° C.
We investigate the influence of the external temperature forcing given by seasonal, interannual, and climatic temperature changes on the surface heat flow of mars and. Added that to mars' average surface temperature of.
