Weight gain.
When energy input exceeds energy output, it means that all the energy taken into the body is not being used. This energy can be converted into fat, causing a person's overall mass to increase. In order to make sure that the energy input does not exceed the energy output, a person must ensure that they are getting enough physical excercise. Remember that energy is used in normal metabolic processes as well, concluding that exercise is not the only component that contributes to energy output. When energy input exceeds energy output, it means that all the energy taken into the body is not being used. This energy can be converted into fat, causing a person's overall mass to increase. In order to make sure that the energy input does not exceed the energy output, a person must ensure that they are getting enough physical excercise. Remember that energy is used in normal metabolic processes as well, concluding that exercise is not the only component that contributes to energy output.
If urine output exceeds input you will lose total body water. If you are retaining fluid, i.e. have too much, this is normal and good. At some point, if it does not stop , it will lead to dehydration.
Yes, for a planet's temperature to remain constant, the energy it receives from external sources, such as sunlight, must equal the energy it emits back into space, typically in the form of infrared radiation. This balance is known as radiative equilibrium. If the energy input exceeds the energy output, the planet will warm, while if the output exceeds the input, it will cool. This principle is fundamental to understanding climate dynamics and planetary atmospheres.
Efficiency compares the useful energy output of a system to the total energy input. It provides a measure of how well a system converts input energy into useful output energy.
Input energy is typically more useful than output energy because input energy is the initial energy put into a system to produce the desired output. Output energy, on the other hand, is the energy produced by the system after losses and inefficiencies have occurred, so it is usually less than the input energy. By maximizing input energy efficiency, we can achieve a more effective output.
if the input is changed then the output is also changed.
Efficiency = ( useful energy output / total energy input ) x 100
the input isand the outpt is
Energy output refers to the amount of usable energy obtained from a system, while energy input is the amount of energy required to operate that system. A system is considered efficient when the energy output is greater than the energy input. Conversely, inefficiency occurs when more energy is put into a system than what is obtained as output.
The output force will be 100N, assuming the system is ideal with no energy losses. This is based on the principle of conservation of energy, where input energy equals output energy in an ideal system.
Energy efficiency compares the energy output of a system to its energy input. It indicates how much of the input energy is converted into useful output energy, with higher efficiency values indicating less energy wasted.
The result (ratio) of such a comparison is called the efficiency. Note that total energy output must be equal to energy input (conservation of energy); however, what is relevant for this comparison is the useful energy output.