Do you mean 'per phase' or do you mean 'per line'? The conductors that connect a three-phase supply to its load are called 'lines' not 'phases'.
If you mean 'per line', and the load is balanced, then you can manipulate the following equation to make the line current (IL) the subject:
power = 1.732 EL IL (where EL = line voltage = 380 V)
If you really DO mean 'per phase', then it's necessary for you to specify whether the load is star (wye) or delta connected.
To convert amps and volts to horsepower (HP), you can use the formula: HP = (Volts × Amps) / 746. For 8 amps at 110 volts, the calculation would be (110 × 8) / 746, which equals approximately 0.88 HP.
There really is no fixed answer. Amps are a measure of current, while watts are a measure of work. To get the answer, you need to know either how many volts you are dealing with, or how much resistance; the relationship is W= V*I (where I is the current in amps). That said, for a typical 120 volt household current, the number of watts would be 180.
To find the current, use the formula: Power (W) = Voltage (V) x Current (A). Rearrange the formula to solve for current: Current (A) = Power (W) / Voltage (V). Therefore, 160 watts divided by 120 volts equals 1.33 Amps.
I know a 4KW gas laser can cut 1 1/4" into average grade steel. Assuming you're refering to this type of laser then 100kw gas laser should be able to cut into about 2 feet of steel. Yikes. Imagine if it were a 100kw chemical laser!!
To calculate the current, you can use the formula: Current (I) = Power (P) / Voltage (V). In this case, 60 watts divided by 120 volts equals 0.5 amperes. Therefore, a device operating at 60 watts on a 120-volt circuit would draw 0.5 amps of current.
To convert amps and volts to horsepower (HP), you can use the formula: HP = (Volts × Amps) / 746. For 8 amps at 110 volts, the calculation would be (110 × 8) / 746, which equals approximately 0.88 HP.
The moon has 8 phases
12 volts
There really is no fixed answer. Amps are a measure of current, while watts are a measure of work. To get the answer, you need to know either how many volts you are dealing with, or how much resistance; the relationship is W= V*I (where I is the current in amps). That said, for a typical 120 volt household current, the number of watts would be 180.
How much current equipments are drawing from three phases (combined or individual) is called three phase load and how much supply we are getting from source is called three phase supply. Ex. In INDIA single phase supply is 220 volt ac with neutral. So in three phase supply all RYB phases should be 220 volts ac with neutral individually. If we calculate with phase to phase than it shoulb be 415 volts ac.
To find the current, use the formula: Power (W) = Voltage (V) x Current (A). Rearrange the formula to solve for current: Current (A) = Power (W) / Voltage (V). Therefore, 160 watts divided by 120 volts equals 1.33 Amps.
Homes do not normally have a 450 v supply and domestic equipment can not be bought for 450 v. For any voltage the current in amps equals the power in watts divided by the votage (and an extra allowance for power factor).
600 Volts
Information is inadequate to answer the question
How many volts for a 9 mag
100% charge = 12.6 volts 75% charge = 12.4 volts 50% charge = 12.2 volts 25% charge = 12.0 volts
That depends on the application [use] of the alternator. For automotive applications, NO, 15 Volts DC is not too much. Generally, an acceptable voltage output range for automotive applications is 13 Volts minimum to 16 volts maximum.