Final answer:
The statement is false; Jupiter radiates more heat than it receives from the Sun due to its internal heat sources, including its own magnetic field and internal thermal energy.
Step-by-step explanation:
The statement in question is false; Jupiter radiates more heat than it absorbs from the Sun. Jupiter is a gigantic gas planet with a very strong magnetic field that emits radio waves, indicative of synchrotron radiation. This phenomenon is due to high-speed electrons being accelerated within Jupiter's magnetic field, suggesting that the planet has an internal heat source. Additionally, Jupiter's intense magnetosphere, as observed in radio waves, confirms that it emits substantial amounts of energy. The heat emitted from Jupiter is not solely from solar energy absorbed but is significantly supplemented by its own internal heat, which includes the remnant heat from its formation and heat generated by its ongoing contraction.
It's important to consider the relationship between distance from the Sun and thermal radiation. Planets like Mercury, closer to the Sun, have very high temperatures, while those further away, like Pluto, are extremely cold. However, Jupiter challenges this norm by radiating more heat than the solar energy it receives, indicating an additional internal heat source independent of its distance from the Sun.