Well, I pay about $0.13 for each kilowatt hour of electricity, so, at that rate it would cost between 3 and 4 cents per hour to run. If you ran the 310 watts for a year it would cost about $353 per year. Amazing how that adds up!
Use the following formula to find the watts used. W = Amps x Volts. Divide that number by 1000. This will give you kWs. Determine how long the motor is to run and multiply this amount by the kilowatts you calculated. This will give you kW/hours. On your utility bill it will be stated how much you pay for a kW/h. Multiply that by your answer and you can estimate how much it costs you to operate the motor.
The measure of the electric power an appliance uses is called wattage. It is typically expressed in watts on the appliance's label or specifications. The wattage helps determine the energy consumption and cost of operating the appliance.
You are not charged on the value of voltage nor on the value of amperage but the product of the two. Amps x volts = watts. It is this product of the two values that the watt meter measures. That total, times the amount of hours that the watts are used, times the price per kWh in your area, determines the price that you are charged for the power used.
To determine the cost of using 350 watts, you would need to know the cost per kilowatt-hour (kWh) from your utility company. Once you have that information, you can calculate the cost by converting watts to kilowatts (350 watts = 0.35 kilowatts) and then multiplying by the cost per kWh.
6 pesos.
Use the following formula to find the watts used. W = Amps x Volts. Divide that number by 1000. This will give you kWs. Determine how long the motor is to run and multiply this amount by the kilowatts you calculated. This will give you kW/hours. On your utility bill it will be stated how much you pay for a kW/h. Multiply that by your answer and you can estimate how much it costs you to operate the motor.
The measure of the electric power an appliance uses is called wattage. It is typically expressed in watts on the appliance's label or specifications. The wattage helps determine the energy consumption and cost of operating the appliance.
You have to go right back to the source and find out how the electricity is produced. Coal fired, hydro, natural gas turbine. There is a specific cost for each method. For transmission of electricity over hundereds of miles the higher the voltage (250,000 and 500,000 volts) the better the cost savings. When the voltage gets to your house 120 or 240 volts does not matter. You are charged by the amount of watts that you use. Watts = amps x volts. What you pay per Killowatt/hour (1000 watts per hour) is the accumulated costs of everything it takes to get the power to your house.
There are no hours in kilowatts. 11019 kilowatts is 11019000 watts. Watts are the product of Amps x Volts. One killowatt is 1000 watts. You are charged by the power company in Kw/Hrs, this means that you pay so much per 1000 watts every hour. Usually the cost is between .05 to .15 cents/kilowatt depending on where you live.
You can find one a pedal power generator.com and the price is $479 dollars. 0-40 volts,output 20 Amps,peak watt: 300 Watts. The model is PPG-B300W and there are other generators as well.
You are not charged on the value of voltage nor on the value of amperage but the product of the two. Amps x volts = watts. It is this product of the two values that the watt meter measures. That total, times the amount of hours that the watts are used, times the price per kWh in your area, determines the price that you are charged for the power used.
To determine the cost of using 350 watts, you would need to know the cost per kilowatt-hour (kWh) from your utility company. Once you have that information, you can calculate the cost by converting watts to kilowatts (350 watts = 0.35 kilowatts) and then multiplying by the cost per kWh.
6 pesos.
Both cost the same to operate as you are billed on wattage used. A 120 volt heater will draw twice the amperage as a 240 volt heater. Watts are the product of multiplying amps times volts. 480 watts = 120 volts x 4 amps is the same as 480 watts = 240 volts x 2 amps.Another AnswerVoltage is irrelevant. What matters is the total power rating of your heating system. Power is a measure of the rate at which you use energy, and it is the total amount of energy (expressed in kilowatt hours) used over a given period of time that you are being billed for.
If You Are Trying To Estimate The Cost Of This Units Power Usage In 24 Hours < I`m Sure It Would Be Very Little > Use Volts X Amps = Watts. Your Cost Is Charged In Kilowatts. Maybe 7 cents Per Kilowatt Hour. Hope This Helps
If the transformer uses 5 watts per hour you need to know what you are paying per 1000 watts from your power company. If you pay lets say $3.00 for 1000 watts then when your transformer burns 1000 watts it cost you $3.00 your cost will be $3.00 for 200 hours run time.
Great question! It depends on the size. 20 minutes = 0.66 hours. Small: 800 watts/hour 264 watts in 20 minutes Medium: 1440 watts/hour 475 watts in 20 minutes Large: 2000 watts/hour 666 watts in 20 minutes To get an idea of how much this is, in terms of cost and in comparison with other appliances, you may want to check out the related link.