When the work output of a person is less than energy input, the glucose in the body gets converted into glycogen, which plays a major role in forming tissues and proteins. If there exists a large variation for a considerably long time, glycogen in the person's body gets converted to adipose tissue (fat) and the person becomes obese.
If a person consumes more energy than her combined work and heat output,
the unexpended remainder will be deposited at various locations in and around
her body in the form of fat cells, with the purpose of sustaining her next time the
hunt or the harvest fails. In short, she will gain pounds and inches.
Not sure at all but maybe the person gets fat.
When more calories are being burned than being consumed, weight loss occurs. Not always a good thing.
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.
The first law of thermodynamics requires that the energy input to a system must equal the energy output from a system plus the accumulation of energy in a system. If no energy is accumulating then the energy input is the heat in and the energy output is the work and heat out.
Energy output, as absolute brightness (magnitude) is taken at a standard distance of 10 parsecs.
base
Light energy
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.
What happens when thermal energy is taken away
The first law of thermodynamics requires that the energy input to a system must equal the energy output from a system plus the accumulation of energy in a system. If no energy is accumulating then the energy input is the heat in and the energy output is the work and heat out.
when oscillations taken energy of pendulum dissipates
The energy from the food is stored
Something.
You are supposed to divide output power / input power. Or in this case, output energy / input energy.
The consumer take it and uses it for his or her use, so that she or her can have energy too
The consumer take it and uses it for his or her use, so that she or her can have energy too
When thermal energy is taken away from matter particles move more slowly. When thermal energy is added to matter particles move faster.
It increases.
Energy output, as absolute brightness (magnitude) is taken at a standard distance of 10 parsecs.