Earths core and mantle producing plate tectonics?

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The discussion centers on the hypothetical scenario of Earth's core being larger, occupying 70% of its radius, and the implications for plate tectonics. It highlights that plate tectonics is primarily driven by mantle convection, which is influenced by heat generated in the Earth's core. A larger core could potentially produce more heat, leading to stronger mantle convection and possibly more active plate tectonics. However, the conversation acknowledges the speculative nature of this hypothesis, emphasizing that such questions may fall outside the strict scientific method due to their hypothetical nature. The role of various heat sources, including radiogenic heat and friction between the core and mantle, is also considered, though the exact effects of a larger core on these heat sources remain uncertain.
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If Earths core were larger taking up say 70% of its radius and the mantle were smaller. Would there be more or less plate tectonics?
 
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Is that an interesting question? Science is about using the scientific method, in short, observe - analyse - hypothesis - predict - find evidence to refute prediction.

So questions about hypothetical -but untrue- situations are outside the scientific method. Anyway, plate tectonics is thought to believe the result of mantle convection, which in turn is the effect of heat produced in the Earth core by some mechanism. So hypothetically, if there was more heat generated in the Earth core, you might expect stronger mantle convection and more plate tectonics.

But it remains highly speculative.
 
Thats what i was thinking but i wanted to be sure because with a larger core you get more eat and heat loss would slow down. I was mainly confused about what a thinner mantle would do for the movement of the plates. but thx.
 
Again, the question is, the heat source, surely there must be some to a lot of radiogenic heat but some heat is also generated due to friction between the core and mantle due to irregulaties in spinning, see for instance this and this.

So if the size of the core was different, what effect would that have on the various heat sources? I don't know.
 
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