I really don't know
I really don't know
When thermal energy is absorbed the substance expands to some extent that is if it is a ball it becomes oblated to a very small extent as a balloon expands on blown with air , if it is a lengthy object the length becomes little longer.
A great amount of voltage and a small potential energy.
If you have a small amount of thermal energy in a small area then the area will heat up faster. If you have the amount of thermal energy in a large area then you are hopeless. The same amount of thermal energy will be transferred to the air. But in a larger room there are always many more particles. Each particle only gets a tiny share of the extra energy. The average energy of the particles increases, but only a tiny bit. The temperature rises, but not very much. Science Focus 7 textbook
It illustrates that it is possible to have a great amount of voltage and a small amount of potential energy.
I really don't know
When thermal energy is absorbed the substance expands to some extent that is if it is a ball it becomes oblated to a very small extent as a balloon expands on blown with air , if it is a lengthy object the length becomes little longer.
Heat is thermal energy.
the large one of course. because the more the mass is, the more the energy is.
A pot of soup 🍲 has more thermal energy because it has more heat therefore the pot is big which makes it catch or attract more thermal energy.😃 If u think am wrong 👎 tell me 😊 why and I would like to hear your thoughts:thx
1. releases large amounts of energy from small amounts of mass 2. very efficient 3. convert nuclear energy into thermal energy 4. the fuel lasts a long time
1. releases large amounts of energy from small amounts of mass 2. very efficient 3. convert nuclear energy into thermal energy 4. the fuel lasts a long time
A great amount of voltage and a small potential energy.
If you have a small amount of thermal energy in a small area then the area will heat up faster. If you have the amount of thermal energy in a large area then you are hopeless. The same amount of thermal energy will be transferred to the air. But in a larger room there are always many more particles. Each particle only gets a tiny share of the extra energy. The average energy of the particles increases, but only a tiny bit. The temperature rises, but not very much. Science Focus 7 textbook
A large or small can from vegetables or beans, And put A balloon on the top
A bigger pan would take more thermal energy than in a small pan
hair dryer, electrical energy enters the hair dryer and is converted to kinetic energy as a small motor spins a fan blade the electrical energy is converted to thermal by a grind of wires that heat up