somebody googled it up in science class
Yes, a small hot object can contain less total energy than a larger cooler object because the temperature of an object is not solely determined by its size but also by its mass and specific heat capacity. So, even though the small hot object may have a higher temperature, the larger cooler object can still contain more energy overall.
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 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 larger wave typically contains more energy than a smaller wave. This is because larger waves have greater amplitude and move more water as they crest and break, resulting in more energy transfer.
A large wave would have more energy than a small wave. The energy of a wave is determined by its amplitude, so a wave with a greater height (larger amplitude) will have more 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.
no
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?
Condensation.Related Information:For water vapor to become liquid water, it must loose energy, molecule by molecule. Often this occurs when water vapor contacts a cooler surface. In the atmosphere, water vapor condenses onto a small, cooler particle to form a very small droplet of liquid water, or condenses onto an existing droplet of water making it larger.
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.
Yes
Usually, there are more small organisms than large ones.
Depends on the wattage of the cooler. 800 watts would be a small cooler I think. You need to check the cooler specification before connecting it to the inverter.
Yes
because they are so small and objects contain so many of them, it is impossible to measure the kinetic energy of all the individual atoms
A glowing gummy contain a small LED (light emitting diode).The source of energy for the LED is a battery.