The force produced by 1 volt depends on the specific application. In general, 1 volt does not directly produce force but rather potential for electrical work. The force generated by 1 volt can be calculated by using the formula F = E * Q, where F is the force, E is the electric field intensity, and Q is the charge.
If a machine has a mechanical advantage much larger than 1, its output force is greater than the input force applied to it. This means that the machine is able to multiply the input force to produce a larger output force, making it easier to lift heavy objects or perform work.
The force needed to produce an acceleration of 1 m/s^2 on a mass of 1 kg is 1 Newton (N) according to Newton's second law of motion, F = ma, where F is the force, m is the mass, and a is the acceleration.
The electromotive force at Earth is approximately 1 volt. This value can vary depending on the location and time due to factors such as solar activity and atmospheric conditions.
The cost of 1 volt of electricity depends on your location and electricity provider. You would usually be charged for electricity by the kilowatt-hour (kWh), not by voltage. The cost of electricity can vary widely, so it is best to check your electricity bill or contact your provider for specific pricing.
1 electron volt (eV) is equal to the amount of energy gained by an electron when it is accelerated through a potential difference of 1 volt. This energy amount is approximately equal to 1.6 x 10^-19 joules.
1 volt is.
A watt is one joule of energy used every second. In electronics, applying 1 volt across a 1 ohm resistor will produce 1 W of heat.
1 volt
I'm not sure. How many volts of homework did you have last week ?
kilo means 1000 so multiply by 1000 to get from 1 volt to 1 kilo volt
If a machine has a mechanical advantage much larger than 1, its output force is greater than the input force applied to it. This means that the machine is able to multiply the input force to produce a larger output force, making it easier to lift heavy objects or perform work.
yes
The force needed to produce an acceleration of 1 m/s^2 on a mass of 1 kg is 1 Newton (N) according to Newton's second law of motion, F = ma, where F is the force, m is the mass, and a is the acceleration.
That is 1 Joule of energy. If it happens in 1 second, 1 amp would have flowed during that time. The same amount of work (energy) is done by moving a force of 1 Newton through a distance of 1 metre.
The electromotive force at Earth is approximately 1 volt. This value can vary depending on the location and time due to factors such as solar activity and atmospheric conditions.
Amp, Amperes is current. Volt, and any variation, is tension. There's no direct translation between them.
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