Kilowatts and horse power are both measures of power and they must be multiplied by time to get units of energy.
1 HP is 746 watts, so a 3-HP pump works at 3 x 746 watts, and probably uses about 3 kilowatts of electrical power input. In one hour that is 3 kilowatt-hours, also known as 3 Units.
Obviously in 6 hours it would use 18 kWh etc. etc.
Ah, what a lovely question! One ton is equal to 12,000 British Thermal Units per hour (BTU/hr) or 3.517 kilowatts. Isn't that just a happy little conversion to know? Just remember, whether it's tons or LRA, every unit has its own unique beauty.
Well, isn't that a happy little question! To find out how many kilowatt-hours 50 watts used for 12 hours equals, we simply need to do a little math. Since 1 kilowatt is equal to 1000 watts, we can convert the 50 watts to 0.05 kilowatts. Multiplying 0.05 kilowatts by 12 hours gives us a total of 0.6 kilowatt-hours. Happy calculating!
The current draw of a well pump can vary widely depending on the size and type of pump, as well as the depth and flow rate of the well. It is recommended to check the pump's specifications or consult with a professional to determine the exact amperage.
Well 1 KWh is "1000 watts per hour". So if you have 400w per hour take400watts per hour divided by 1000 and it shows that you get "0.4KWh".AnswerThere is no such thing as a 'kilowatt per hour', which is why the unit of measurement is a 'kilowatt hour', and NOT a 'kilowatt per hour'!.To determine the number of kilowatt hours of energy consumed by the lamp, multiply its power, expressed in kilowatts, by the length of time it is in use. For your example, the answer is 0.4 kWh.
The amount of amperage needed for a 220V well will depend on the wattage of the well pump. To calculate the amperage, divide the wattage of the pump by the voltage (220V) to get the amperage required.
The relationship between amps and kilowatts depends on the voltage of the circuit. To calculate the amperage for a given kilowatt value, you need to know the voltage as well. The formula to convert kilowatts to amps is Amps = (kW * 1000) / Volts.
Ah, what a lovely question! One ton is equal to 12,000 British Thermal Units per hour (BTU/hr) or 3.517 kilowatts. Isn't that just a happy little conversion to know? Just remember, whether it's tons or LRA, every unit has its own unique beauty.
A 240V well pump typically draws around 10-15 amps.
Well, isn't that a happy little question! To find out how many kilowatt-hours 50 watts used for 12 hours equals, we simply need to do a little math. Since 1 kilowatt is equal to 1000 watts, we can convert the 50 watts to 0.05 kilowatts. Multiplying 0.05 kilowatts by 12 hours gives us a total of 0.6 kilowatt-hours. Happy calculating!
A 3-ton heat pump typically has a heating capacity of around 36,000 BTUs per hour and a cooling capacity of around 36,000 BTUs per hour as well. These units can vary based on the specific model and efficiency rating.
A 240v well pump typically uses between 750 to 1500 watts of power.
Well, if it's a gas oven, zero. :) Most newer ovens use about 10 kilowatts per hour (10kwh), so my guess would be about 40kwh for 4 hours.
The current draw of a well pump can vary widely depending on the size and type of pump, as well as the depth and flow rate of the well. It is recommended to check the pump's specifications or consult with a professional to determine the exact amperage.
Well 1 KWh is "1000 watts per hour". So if you have 400w per hour take400watts per hour divided by 1000 and it shows that you get "0.4KWh".AnswerThere is no such thing as a 'kilowatt per hour', which is why the unit of measurement is a 'kilowatt hour', and NOT a 'kilowatt per hour'!.To determine the number of kilowatt hours of energy consumed by the lamp, multiply its power, expressed in kilowatts, by the length of time it is in use. For your example, the answer is 0.4 kWh.
The fuel pump is part of the injector pump, althoug many diesel vehicles have a separate lift pump in the fuel tank as well.
The amount of amperage needed for a 220V well will depend on the wattage of the well pump. To calculate the amperage, divide the wattage of the pump by the voltage (220V) to get the amperage required.
I replaced the water pump on a '93 SL 1 and it was very easy to do by first removing the front tire and working through the wheel well. It took about 1 hour to complete.