both temperature and internal energy
Yes; power= work/time, or work per time, measured in watts.
To my knowledge, the intelligent suspension system is nothing but a mechanical dampling system integarated with a computer which can take input from optical/sonic sensors and process it to give output to the damping system (in mechanical/thermal format) to vary the damping co-efficient. I have alot to write. i just want to finish it here.
Respiration need transportation of respiratory gases. This is done by circulation system
ATP
the Work-Energy Theorem states the work done is equal to the change in kinetic energy.
Mechanical advantage .
Increase.
I think it helps to think - informally - of work as the "transfer of energy". Work is said to be done when you apply a force along a certain distance; and energy is required to do this work. The work done on the system may increase the system's potential energy, or - if done against a force of friction - it may increase its heat energy.
If work is done adiabatically on a system, the internal energy will increase. This is because adiabatic processes do not involve the exchange of heat with the surroundings, so any work done on the system will directly contribute to an increase in its internal energy.
Type your answer here... Each and every mechanical work can be done by his....
Such work - the product of force and a distance - is simply called "work". It is actually a kind of energy.
If the internal energy of the system increases the temperature will increase.
Mechanical Efficiency is the ratio of Actual mechanical advantage to ideal mechanical advantage.Efficiency will be maximum when Actual mechanical advantage equals that of ideal.But practically not possible.Actual mechanical advantage will be less due to friction,heat,deflection etc.avoiding these loses will increase the machine efficiency.
One way to increase power is to work harder (generate more energy in same amount of time). Another way to increase power is to work faster (generate the same amount of energy in less time).
Work equals the change in energy, in a closed system energy is not lost. So in a closed system any work done will be countered by an equal and opposite work. An example is throwing a ball up into the air and catching it again. The work done by you to accelerate it is equal and opposite to the work done by the earth.
work done on the system: when a surrounding does work on the system the total energy increases so work done is positive..........
Power is the rate at which work is done. That isPower = Work/Time.Work done is also the change in the total mechanical energy of a system between its initial and final state.Work = Final Energy - Initial Energy