No.
There are many possible answers. One of them is Output = 6 - Input.
There are infinitely many possible answers: Rule I: Output = 4 (whatever the input, the output is 4). Rule 2: Output = Input - 2 Rule 3: Output = Input/2 + 1 Rule 4: Output = (Input/3)2
There are an infinite possible answer. Among the simpler ones is: Output = Input - 2
It is possible.
Input and output (of energy)
The energy input is always greater than energy output.
Whenever we do any work some energy will be converted into any form other than the actual input energy for the work to be done so it is impossible to have the output greater than work input example : some energy will be converted to heat energy due to friction
Yes, because there is always a small loss of energy within the system.
Output is always greater than input. The output is multiplied from input.
The Output Force Will Most Likely Be Greater Than The Input Force. So "OUTPUT" Is Greater Than "INPUT".
No - that would violate Conservation of Energy. So far, there is no known process that violates Conservation of Energy, and it doesn't seem likely that one will ever be found.
Yes, the output force of a rake is greater than the input force.
No. Work output is less than or equal to work input. Since some energy (work) is lost in most processes, it will usually be less.
Input energy = output energy + losses
You divide useful output energy by the input energy. Or equivalently, useful output power by input power.
There are many possible answers. One of them is Output = 6 - Input.
Then efficiency would become more than one. This leads to the concept of creating energy which is against the law of conservation of energy. If there is a gravitational incline, moving down the plane can give an output of work greater than the "immediate" input, because of the gravitational potential energy. So if you ignored the gravitational potential energy, the output could be greater. If you don't ignore the gravity, then no; you can't create energy, you can only transform energy.