1815/29 = 62.586 kWh per day, average energy usage
Average power consumption = 1,815,000/(29 x 24) = 2,607 watt-hours per hour = 2,607 watts
To find the average kilowatts used per day, divide the total kilowatt-hours used (1815 kWh) by the number of days (29): 1815 kWh / 29 days = 62.59 kWh per day. Therefore, the house used an average of approximately 62.59 kilowatt-hours per day over the 29 days.
On average, a house in La Cal uses about 30-50 kilowatt-hours (kWh) per day. This can vary depending on factors such as the size of the house, number of occupants, and energy efficiency measures in place. It's recommended to check your electricity bill for more accurate information.
An average house typically requires around 1-5 kilowatts (kW) of power, depending on the size of the house and the appliances used. This is equivalent to 1,000-5,000 watts of power consumption at any given time.
Watts, kilowatts, and megawatts are units of power measurement. Watts are small units, commonly used for measuring the power consumption of small electronic devices. Kilowatts are larger units, used for measuring household electricity consumption or the power output of a car engine. Megawatts are even larger units, typically used for measuring the power output of power plants or large industrial facilities.
The average household in the US uses about 30 kWh per day, which translates to around 1200 watts on average over a 24-hour period. However, this can vary depending on the size of the house, number of occupants, appliances used, and overall energy efficiency.
In a typical house, appliances like air conditioners, electric ovens, clothes dryers, and hot water heaters can collectively consume around 50 kilowatts of power.
On average, a house in La Cal uses about 30-50 kilowatt-hours (kWh) per day. This can vary depending on factors such as the size of the house, number of occupants, and energy efficiency measures in place. It's recommended to check your electricity bill for more accurate information.
An average house typically requires around 1-5 kilowatts (kW) of power, depending on the size of the house and the appliances used. This is equivalent to 1,000-5,000 watts of power consumption at any given time.
Watts, kilowatts, and megawatts are units of power measurement. Watts are small units, commonly used for measuring the power consumption of small electronic devices. Kilowatts are larger units, used for measuring household electricity consumption or the power output of a car engine. Megawatts are even larger units, typically used for measuring the power output of power plants or large industrial facilities.
Tell me how to comprehend a tesseract, then I will help you...
First of all, 'kilowatts' is a rate of using energy, not an amount of energy. Your electric companydoesn't charge you for 'kilowatts'; they charge you for 'kilowatt-hours'.But we'll let that pass for right now.The number of kilowatt-hours, or kilowatts, that a house uses really kind of depends on what allis plugged in and running in the house. If the family is on vacation and the only things running inthe house are a couple of clocks and the refrigerator, the house is using maybe 0.1 kilowatts onthe average.If everybody's home, it's a weekend in the winter, it's freezing outside, the missus is cookingon the electric stove, the old man is either taking a nice hot shower or else watching the gameon his new 350-inch HDTV, the kids are all in their rooms with their TVs and computers on, thethermostat is set at 75 and the electric baseboard heaters are trying hard to keep the housewarm, and there's a load of laundry going, that house could be using 15 or 20 kilowatts right now.Dad would like to take a nap, but that dang noise coming from the spinning electric meteris keeping him awake.
Supply companies allow 3-4 kilowatts per house for a group of houses so that the different loads average out. On that basis 1.5 GW could be used to power around 400,000 houses.
I could feel the difference in the coarse gray hairs my mother-in-law left hanging around the house and my wifes baby soft brown hair. I could feel the difference in the coarse gray hairs my mother-in-law left hanging around the house and my wifes baby soft brown hair.
A watt is the product of Amps times Volts. It has nothing to do with a time interval. That said if that wattage is left on for a period of time, say 1 hour then it can be expressed as watt-hours. Because consumption in an average home is larger that just watts it is expressed as (kilo = 1000) kilowatts The meter on your house totals the amount of kilowatts hours you use in a month and this is what you are billed for from your utility company.
The average household in the US uses about 30 kWh per day, which translates to around 1200 watts on average over a 24-hour period. However, this can vary depending on the size of the house, number of occupants, appliances used, and overall energy efficiency.
In a typical house, appliances like air conditioners, electric ovens, clothes dryers, and hot water heaters can collectively consume around 50 kilowatts of power.
The average kilowatts used by the average home is 1.5 kw.Over what period of time? Per month, day, week, hour?Clearly not per hour, as over a 24 hr period the kw used will vary widely. This figure I guess comes from total power delivered in an electricity company's area divided by the number of homes in that area, but I admit not knowing its provenance. If it is derived as described then it will be over a three month or yearly period.This answer needs clarification. A house's load, in kilowatts, varies throughout the day, according to what appliances are in use, and depends on the nature of the load, and upon something called 'diversity'. And it is also important to realise that you don't 'use' kilowatts; a kilowatt is a measure of the rate at which you use energy (in kilowatt hours). Because houses are so different, it is difficult to specify an 'average' load. However, it would be possible to calculate the 'average' load by dividing the kVA rating of the transformer by the number of houses it supplies. This average value will be far lower than one would expect because of a calculation called the 'after diversity, maximum demand'. 'Diversity' takes into account that not everyone is at home at the same time, and not every appliance in any household is running at the same time.The main fuse supplying an individual house would not be able to cope if every appliance was switched on together, because the chances of that happening is very unlikely. So, one way of calculating the 'maximum' load it could handle is to multiply your main-fuse rating by the supply voltage.
The average cost was $181, 900 for a house in 1998