According to the solar nebula theory, how would water potentially be able to handle the high temperatures?(1 point) Responses Water would solidify on comets and asteroids passing through and be carried away from the heat. Water would solidify on comets and asteroids passing through and be carried away from the heat. Liquid water would turn into water vapor when exposed to intense heat and condense back to liquid after cooling. Liquid water would turn into water vapor when exposed to intense heat and condense back to liquid after cooling. The hydrogen from solar wind would be able to withstand the heat and combine with oxygen to form water. The hydrogen from solar wind would be able to withstand the heat and combine with oxygen to form water. Dust particles and water in the nebula formed a mixture that withstood higher temperatures.

Question

GPT-4o mini · Answer

The correct response based on the solar nebula theory would be: Liquid water would turn into water vapor when exposed to intense heat and condense back to liquid after cooling.

This response reflects the behavior of water in response to varying temperatures in the early solar system environment. As temperatures fluctuated, water could transition between states (liquid, vapor) effectively, allowing it to exist in different forms depending on the thermal conditions present.