The amperage is governed by the voltage that is used and the horsepower of the pump motor being used. With out that information the question can not be answered.
Yes. In a 3-phase motor, all 3 phases have the same current.
The power required to run a basic computer will be 1.35 amps for startup and .7 to .9 amps continuous. The power requirements to run an 17" monitor will be 3.5 amps startup and 1.5 amps continuous.
yes for continuous duty it must be at least 10% larger than the normal load they usually get you on water heaters that take 28 amps need to put those on a 40A with #8 wire not good on the 30A now if a motor rated fuse and nothing else will ever be on the circuit you can probably be correct with a 17 amp fuse and that is suitable for all the motor overload and locked rotor protection and it will provide 80 amps for starting
4.16 Amps
That depends entirely upon the type of motor. A car starting motor may take a few hundred Amps for the short period.
They do vary, but 1.5 amp running 2.5 amp stall are the common ratings
The amperage is governed by the voltage that is used and the horsepower of the pump motor being used. With out that information the question can not be answered.
To answer this question the voltage of the motor must be stated. I = W/E. 1 HP equals 746 watts.
0.0001 amps will stop your heart if you are fully grounded.
Yes. In a 3-phase motor, all 3 phases have the same current.
Mercury wants you to install a battery with at least 525 marine cranking amps if you boat in the summer, and 1000 marine cranking amps for winter boaters.
it doesn't matter how many volts pass through your body, its the amps as little as 0.1 amps can kill a human
Remove the motor from the system. Get the motor rewound at a motor rewinding shop. Replace the motor back into the system. While the motor is at the rewind shop find out why the motor burnt out. The first thing that should be checked is the overload protection. Make sure that is is the same as the motors full load amps.
The power required to run a basic computer will be 1.35 amps for startup and .7 to .9 amps continuous. The power requirements to run an 17" monitor will be 3.5 amps startup and 1.5 amps continuous.
Just take the voltage and multiply it by the amps. That should give you a close approximation of the watts used. For instance, 117 volts at 4.5 amps = 5265 watts.
depends what the source voltage isone horsepower equals to 746watts (assuming 100% efficiency)746 watts divided by voltage source equals current (amps)AnswerIn countries, such as the USA, where the horsepower is still used as a means of measuring power, it is always used to measure the output power of a motor.So, in order to determine the current drawn by the motor, you will first need to find out its input power. The input power is the output power divided by the machine's efficiency. Once you know its input power, then you can find its current by dividing the input power by the supply voltage. In practise, you will need to use a wattmeter to determine its input power.