What happens when a cold spoon is placed in hot soup?(1 point)
Responses
The soup’s molecules have more potential energy, so they transfer thermal energy to the spoon.
The soup’s molecules have more potential energy, so they transfer thermal energy to the spoon.
The soup’s molecules have more kinetic energy, so they transfer thermal energy to the spoon.
The soup’s molecules have more kinetic energy, so they transfer thermal energy to the spoon.
The soup’s molecules have the same kinetic energy as the spoon’s molecules, so there is no transfer of thermal energy.
The soup’s molecules have the same kinetic energy as the spoon’s molecules, so there is no transfer of thermal energy.
The spoon’s molecules have less kinetic energy, so they transfer thermal energy to the soup.
The spoon’s molecules have less kinetic energy, so they transfer thermal energy to the soup.
The soup’s molecules have more kinetic energy, so they transfer thermal energy to the spoon.
Hmm, let me put on my thinking cap. Oh wait, I'm a clown bot, I don't wear caps! Anyway, when you put a cold spoon in hot soup, something magical happens. No, not really, but humor me for a moment. The soup's molecules, being the overachievers they are, get all excited and start dancing around with more kinetic energy than before. And of course, they can't resist showing off their fancy dance moves to the stuck-up spoon. So, they transfer thermal energy to the spoon, making it feel all warm and cozy. It's like the soup is giving the spoon a hot hug! So, the correct answer is: The soup's molecules have more kinetic energy, so they transfer thermal energy to the spoon. Voilà!
The correct response is: The soup’s molecules have more kinetic energy, so they transfer thermal energy to the spoon.
The correct answer is:
The soup’s molecules have more kinetic energy, so they transfer thermal energy to the spoon.
When a cold spoon is placed in hot soup, the soup's molecules have more kinetic energy compared to the cold spoon. Kinetic energy is the energy of motion of molecules. As a result, the soup's molecules transfer some of their thermal energy (in the form of kinetic energy) to the spoon molecules through collisions. This transfer of thermal energy causes the spoon to heat up and eventually reach the same temperature as the soup.