somebody googled it up in science class
Hotter objects emit significantly more radiation than cooler objects. According to Stefan-Boltzmann's law, the total energy radiated by a blackbody is directly proportional to the fourth power of its temperature. This means that a small increase in temperature leads to a much larger increase in emitted radiation.
The swimming pool would have more thermal energy than the puddle at the same temperature of 24°C due to its larger volume of water. This is because thermal energy is directly related to the amount of matter (in this case water) present, so a larger body of water like a swimming pool will contain more thermal energy compared to a small puddle.
Yes, a small object can have more thermal energy than a larger object if it has a higher temperature. Thermal energy is directly proportional to temperature, so even though the larger object has more mass, the smaller object could have a higher temperature and therefore more thermal energy.
There's no scientific reason why heat energy can't flow from a cooler objectto a warmer object, making the cool one cooler and the warm one warmer.But the probability of it is so small that the statement "That never happens." isused in the field of Thermodynamics as if the statement were a law of nature.
A larger car will have more kinetic energy due to its greater mass and speed, leading to a longer stopping distance compared to a smaller car with less kinetic energy. The larger car will require more distance to decelerate and come to a stop due to its higher kinetic energy.
no
Hotter objects emit significantly more radiation than cooler objects. According to Stefan-Boltzmann's law, the total energy radiated by a blackbody is directly proportional to the fourth power of its temperature. This means that a small increase in temperature leads to a much larger increase in emitted radiation.
The waves usually get their energy from the wind. The wind pushes against any small irregularity in the water, creating small ripples, pushes against the small ripples producing larger waves, etc.The waves usually get their energy from the wind. The wind pushes against any small irregularity in the water, creating small ripples, pushes against the small ripples producing larger waves, etc.The waves usually get their energy from the wind. The wind pushes against any small irregularity in the water, creating small ripples, pushes against the small ripples producing larger waves, etc.The waves usually get their energy from the wind. The wind pushes against any small irregularity in the water, creating small ripples, pushes against the small ripples producing larger waves, etc.
a small bowl as it can heat up quicker than a larger bowl and with a big bowl when the heat comes in it is easier for it to come out?
The swimming pool would have more thermal energy than the puddle at the same temperature of 24°C due to its larger volume of water. This is because thermal energy is directly related to the amount of matter (in this case water) present, so a larger body of water like a swimming pool will contain more thermal energy compared to a small puddle.
Usually, there are more small organisms than large ones.
Yes, a small object can have more thermal energy than a larger object if it has a higher temperature. Thermal energy is directly proportional to temperature, so even though the larger object has more mass, the smaller object could have a higher temperature and therefore more thermal energy.
There's no scientific reason why heat energy can't flow from a cooler objectto a warmer object, making the cool one cooler and the warm one warmer.But the probability of it is so small that the statement "That never happens." isused in the field of Thermodynamics as if the statement were a law of nature.
The more massive horse that is moving at the same speed will have greater kinetic energy. How do you define large and small? A small fat horse may have more mass than a large skinny horse.
Contrary to popular belief.... Vitamins do not contain energy (or kilocalories)
No, the larger horse would have more kinetic energy than the smaller horse because kinetic energy is directly proportional to mass. Since the larger horse has more mass, it would have more kinetic energy even if they are moving at the same speed.
A larger car will have more kinetic energy due to its greater mass and speed, leading to a longer stopping distance compared to a smaller car with less kinetic energy. The larger car will require more distance to decelerate and come to a stop due to its higher kinetic energy.