Hz (hertz) and watts are different units of measurement. Hz measures frequency while watts measure power. You cannot directly convert Hz to watts without additional information about the system such as voltage or current.
To convert frequency (Hz) to power (Watts), you cannot do a direct conversion as they are different units. Hertz (Hz) is a measurement of frequency, while Watts (W) is a unit of power. The frequency of 50 Hz in Europe refers to the cycles per second in the electrical supply, not the power consumption. To determine power consumption in watts, you would need additional information such as voltage and current.
It could be anything from zero to infinity because Hertz are not proportional to either watts or volts. But 120 v supplies are common in America, where the frequency happens to be 60 Hz.
The wattage of a microwave is typically between 600 to 1200 watts. The frequency, in this case 60 Hz, refers to the electrical supply frequency rather than the power output of the microwave.
No, you cannot always get 250 watts of power out of a mechanical system when 250 watts of power is input. Some energy may be lost due to friction, heat, or other inefficiencies in the system, resulting in a lower power output.
Hz (hertz) and watts are different units of measurement. Hz measures frequency while watts measure power. You cannot directly convert Hz to watts without additional information about the system such as voltage or current.
There are 1350 watts in a 60 hz bulb. There is a push not for everyone to transfer to led bulbs.
250 Megawatts = 250,000,000 Watts.
To convert frequency (Hz) to power (Watts), you cannot do a direct conversion as they are different units. Hertz (Hz) is a measurement of frequency, while Watts (W) is a unit of power. The frequency of 50 Hz in Europe refers to the cycles per second in the electrical supply, not the power consumption. To determine power consumption in watts, you would need additional information such as voltage and current.
The beat frequency would be 6 Hz, which is the difference between the two overlapping frequencies (256 Hz - 250 Hz). This is the rate at which the intensity of the sound will oscillate, creating a pulsating effect.
It could be anything from zero to infinity because Hertz are not proportional to either watts or volts. But 120 v supplies are common in America, where the frequency happens to be 60 Hz.
The wattage of a microwave is typically between 600 to 1200 watts. The frequency, in this case 60 Hz, refers to the electrical supply frequency rather than the power output of the microwave.
250 what? ounces, pounds?
Depends on the voltage. AMPS X VOLTS = WATTS 250 Watts at 12 V would be about 21 Amps, while 250 watts at 120 volts would be 2.1 amps.
No, you cannot always get 250 watts of power out of a mechanical system when 250 watts of power is input. Some energy may be lost due to friction, heat, or other inefficiencies in the system, resulting in a lower power output.
A typical microwave is 750-800 watts. There are lower (and higher) power machines, but the 'normal' for general use is 750-800 watts.
http://www.google.com/search?rlz=1C1CHMB_enUS291US304&sourceid=chrome&ie=UTF-8&q=250+watts+to+horsepower