It is reported that a typically candle will deliver approximately 0.981 candela of heat power. Watts are used to describe electricity.
PS:
That (candela unit) still evades the (universal, desired, direct) "power conversion" (answer) to Joules per second (=Watt, standard, also of heat).
It's common sense that a candle's flame, will deliver 1 candle of power (=candela),
& tells nothing more.
Meaning the question was NOT answered (correctly).
Divide the useful power by the total power spent. Then - if you want a percentage - multiply the result by 100.
The DC output of the XBox power supply is 135 watts.
In theory one horse power equals 746 watts. They are both basic measures of power. A 1 HP motor however draws more than 746 watts because to give a mechanical output of 1 HP/746 watts at the shaft, the motor has to draw more than 746 watts of electric power to cover losses in caused by resistance in the windings and the iron core of the motor, and friction in the bearings. A typical efficiency for a motor would be 90% so that the electric power used would be 829 watts. <<>> For clarification in all electrical calculations regarding horsepower, 746 watts per horsepower is used.
Amps are units of current, watts are units of power. Watts are the product of Amps times Volts. Watts = Amps x Volts.
Solar panels can make enough watts to power your whole house if you have enough of them. Some solar panels will generate 50 watts, 80 watts or 120 watts.
Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.Foot-candle is a unit of light intensity, not of power like watts. The power would vary, depending on the color of the light.
this cannot be determined as they are note interconvertible units.
USB 3.1 (C) can deliver a power output of up to 100 watts (20 volts and 5 amps).
A standard lighthouse bulb is 1 million candle power. This is about 1000 watts. The standard household bulb is only about 60 to 100 watts.
Maximum 23,000 watts provided the power factor of the load is 1 (e.g. a heater). For a typical motor with a power factor of 0.8 the watts would be 18,400.
Divide the useful power by the total power spent. Then - if you want a percentage - multiply the result by 100.
A typical microwave is 750-800 watts. There are lower (and higher) power machines, but the 'normal' for general use is 750-800 watts.
0 - 1000. KVA times a power factor gives you kilowatts, 1000 x watts. If the power factor is 0, then o watts make up your one kVA; if the power factor is 1, then 1000 watts make up your one kVA. Typical power factor is in the range of .8 to 1.
A typical microwave rated at 1100 watts uses 10 amps of power. This is calculated by dividing the number of watts by the voltage of 110.
The Pyle is a lower end lower powered model that will only push around 70 watts of power.
a power supply must deliver xxx watts to a load the transformer must match the load capabilities plus its own loss
Generally more watts on a CB antenna doesn't mean more range. On average, a typical CB antenna takes in 4 watts before damage occurs. Watts is the power source not the range of signal.