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There is no direct answer for this question, as voltage and wattage measure different quantities. It's kind of like asking "how many gallons are in a foot?" Volts are a unit used to measure the electric potential between points, while watts are a measure of power consumed by a circuit.
They are related, though, as expressed by the power equation: P = V x I
where: * P is power in watts * V is the voltage across a circuit, in volts * I is the current flowing through the circuit, in amperes (amps) Thus, if a circuit has 1 volt across it, and one ampere flows through the circuit, then 1 watt of power is being used. The amount of current depends on how resistant the circuit is to the flow of electricity, and the voltage applied, according to Ohms Law: I = E / R
where R is the resistance of a circuit in Ohms A useful analogy is to compare a circuit to a Plumbing system. Let's say we apply water pressure to one end of a pipe, with a closed valve in the middle. The difference in pressure accross the valve is equivalent to voltage accross a circuit. However, with the valve closed, no water is flowing - just as no current would flow through a switch if it is turned off, and thus no wattage would be used. Opening the valve would cause water to flow through a pipe, just as turning the switch on (closing the circuit) would allow current to flow through the circuit. The current flowing through the circuit (or speed of water through the pipe) would depend on the resistance of the circuit (or the diameter of the pipe) and the voltage accross the circuit (the water pressure). The wattage used by the circuit would then be roughly equivalent to the amount of water passing through the pipe per second.
What else can I help you with?
How long will a 12 volt battery provide 100 watts?
To calculate the duration a 12 volt battery will provide 100 watts of power, you can use the formula P = V x I, where P is the power (100 watts), V is the voltage (12 volts), and I is the current. Rearranging the formula to solve for current, we get I = P / V. Plugging in the values gives I = 100 watts / 12 volts = 8.33 amps. The battery's capacity, typically measured in ampere-hours (Ah), can then be used to determine how long the battery will last. If the battery capacity is say 50Ah, you can divide the capacity by the current to find how long the battery will last: 50Ah / 8.33A = approximately 6 hours.
How long will a 1.5 volt Duracell AA power 1.5 volt light bulb?
The duration a 1.5-volt Duracell AA battery can power a 1.5-volt light bulb depends on the battery's capacity (measured in milliamp-hours) and the power consumption of the bulb (measured in watts). Typically, a standard AA battery has a capacity of around 2000-3000 mAh, while a 1.5-volt bulb may consume around 0.5 watts. This could result in the battery powering the bulb for several hours, but the exact time will vary based on the specific battery and bulb used.
How many watts in one battery?
It depends on the voltage and current ratings of the battery. Most rechargeable batteries have these values printed on them. Lets say it is 1.25 V and it is 2000 mAh. This means it can provide, ideally, 1.25 and 2 amp for 1 hour (1.25 V and 1 amp for 2 hours). I think you got the idea. So it is 1.25*2=5 Watts.
How much battery power will it take to light up three 1.5 volts bulbs in a series circuit?
The battery should be 4.5 v which is three 1.5 v cells in series. The power in watts depends on the size of the bulbs.
How many watts does a heat lamination use?
The power consumption of a heat lamination machine typically ranges from 300 watts to 1500 watts, depending on the size and capacity of the machine.
What size inverter do you need to go from ac to dc for a Kenmore model 16562 chest freezer?
A: It not size but rather capacity. the capacity will be the ac power consumption AC volts X AC current that will get Watts. So the capacity of the inverter should be the same watts plus a safety and efficiency power if the watts is 100 watts i would buy a 125 watts minimum
How much backup of 150ah battery?
Ampere Hour (Ah)The capacity of the battery is represented in Ah. It is the amount of current a battery can give during one hour of charge / discharge cycle. High capacity batteries (100 Ah, 150 Ah) are used to power inverters to get sufficient backup time. The formula to select the battery power (Ah) is Load in watts / Voltage of battery x Backup hour.For example if you wants to run 400 watts load on 12 volt battery for 3 hours, then the capacity of the battery should be minimum 100 Ah.Ah = 400 / 12 x 3 = 100 Ah. If the load increases (within the capacity of the inverter), backup time reduces.
How long will a 12 volt battery provide 100 watts?
To calculate the duration a 12 volt battery will provide 100 watts of power, you can use the formula P = V x I, where P is the power (100 watts), V is the voltage (12 volts), and I is the current. Rearranging the formula to solve for current, we get I = P / V. Plugging in the values gives I = 100 watts / 12 volts = 8.33 amps. The battery's capacity, typically measured in ampere-hours (Ah), can then be used to determine how long the battery will last. If the battery capacity is say 50Ah, you can divide the capacity by the current to find how long the battery will last: 50Ah / 8.33A = approximately 6 hours.
What is the difference between power and capacity?
Power refers to the rate at which work is done or energy is transferred, measured in watts. Capacity, on the other hand, refers to the maximum amount that something can hold or produce, such as the storage capacity of a battery or the seating capacity of a vehicle. Essentially, power is about how fast something can do work, while capacity is about how much it can hold or do over time.
For how long a battery of 20watts can give backup to a load of 5watts 2?
watts is an instantaneous measurement of energy. There is no time component. If you can produce 20 watts, then you can power exactly 20 watts for as long as that is being produced. If you have a 20 watt hour battery, you should be able to power a load requiring 5 watts for (20/5 =) 4 hours.
How long will a 1.5 volt Duracell AA power 1.5 volt light bulb?
The duration a 1.5-volt Duracell AA battery can power a 1.5-volt light bulb depends on the battery's capacity (measured in milliamp-hours) and the power consumption of the bulb (measured in watts). Typically, a standard AA battery has a capacity of around 2000-3000 mAh, while a 1.5-volt bulb may consume around 0.5 watts. This could result in the battery powering the bulb for several hours, but the exact time will vary based on the specific battery and bulb used.
How many watts in one battery?
It depends on the voltage and current ratings of the battery. Most rechargeable batteries have these values printed on them. Lets say it is 1.25 V and it is 2000 mAh. This means it can provide, ideally, 1.25 and 2 amp for 1 hour (1.25 V and 1 amp for 2 hours). I think you got the idea. So it is 1.25*2=5 Watts.
How you know about the capacity of voltage regulator for your home?
The capacity of the regulator is measured in Watts (Power) and that is the voltage multiplied by the current.
How many watts does a AA duracell battery have?
A typical AA Duracell battery has a nominal voltage of 1.5 volts and a capacity of around 2000 to 3000 milliamp-hours (mAh). To calculate the watt-hours (Wh), you can multiply the voltage by the capacity in amp-hours (Ah). For example, if a AA battery has a capacity of 2500 mAh (or 2.5 Ah), it would have approximately 3.75 watt-hours (1.5V x 2.5Ah = 3.75Wh). However, the actual power output in watts can vary depending on the device and usage conditions.
How much battery power will it take to light up three 1.5 volts bulbs in a series circuit?
The battery should be 4.5 v which is three 1.5 v cells in series. The power in watts depends on the size of the bulbs.
How much watts battery power required for the 4 desktop computer?
123mb
What is the maximum power capacity of a 15 amp 120 volt outlet?
The maximum power capacity of a 15 amp 120 volt outlet is 1800 watts.
