If you do work on an object in half the your power output is
twice the usual power output.
Decreases
power=work/time=fd/t=watt This is how you would figure out your power or wattage. i hope i could be of help to you!
Then the machine would have a greater output power, or alternately, require less input power.
183.33... Watts.
Power is the time derivative of work done by a force. It is the energy a force gives to a body or system per unit time.
1. If you do work on an object in one-third the usual time, your power output is A) one third the usual power output. B) the usual power output. C) three times the usual power output. D) impossible to predict without additional information. Answer: C
Decreases
it would be 9 times yesterday's power output
A device which requires 1000mA at 9 volts in order to operate will not work from an output of 500mA. This output is only half the power requirement of the device.
Power is the rate of performing work on an object. Mathematically, power = work divided by time =force x distance divided by time.
the output of a car engine depends on many factors. Engine size (displacement) plays a major factor. Output is figured in horsepower. the classic definition of Horsepower is the force moving an object a certain distance within a certain time. Force = pounds Distancem = feet Time = minute
Yes. Though the response time of a pneumatic system is better as compared to hydraulic, power output is higher in latter.
you divide;work/time=power (/=divided by< I think)
about half an hour.
In this case, the peak voltage, which is half the peak to peak voltage, is 100 volts. Additionally, the half-wave rectifier will only provide an output for half the input cycle. In the case of a full wave rectifier, the RMS output voltage would be about 0.707 times the value of the peak voltage (100 volts), which would be about 70.7 volts. But with the output operating only half the time (because of the half wave rectification), the average output voltage will be half the 70.7 volts, or about 35.35 volts RMS.
No. Power is the rate at which work is done, or energy moves from place to place.
The idea is to divide the work by the time.