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It depends on how much power the lamps require, and on how they are connected.
Too much load for the generator, the generator began to under speed / overspeed, the governor / part of the generator went into failure, the generator capability was not up to the requirements placed by the system (needing to push out/pull in too many VARs), etc. there are many reasons for a generator to drop a load. Because a load dropped, this does not infer that the generator was the cause either (fault on the system, system instability limits reached, system protection tripped - non-generator related protection).
There is 746 watts per HP. So a 350 hp motor with a power factor of roughly 0.8 would require 261,000 W 261KW generator or 326 KVA.
The price range when purchasing a power generator depends a great deal on the size of a generator. A small generator for the garage can be purchased for $100.00 while a large industrial generator can cost as much as $30,000.00.
A standard gas generator is generally much quieter than other types of generators. However, a major drawback is the price and cost of installation of a unit.
initial torque to overcome the friction in generator and then to keep constant speed of stator within the generator. Minimum 50NM
How much KVA generator is required to run two AC of 1.5 tone
That is analogous to linear speed and velocity, but for rotation. Whereas a linear speed (or velocity) is expressed in meters per second (or some other units of distance / time), the angular speed or velocity is expressed in radians / second (or some other units of angle / time). Of course, when something rotates, there is also a linear speed, but different parts of an object rotate at different linear speeds, whereas the angular speed is the same for all parts of a rotating object - at least, in the case of a solid object. For example: the Earth rotates at an angular speed of 1 full rotation / day. The linear speed at the equator is approximately 1667 km/hour; close to the poles, the linear speed is much less.
A generator is a back up of power. A generator can only give so much voltage.
Angular momentum is an expression of an objects mass and rotational speed. Momentem is the velocity of an object times its mass, or how fast something is moving times how much it weighs. Therefore angular momentum is the objects mass times the angular velocity where angular velocity is how fast something is rotating expressed in terms like revolutions per minute or radians per second or degrees per second.
Angular momentum is an expression of an objects mass and rotational speed. Momentem is the velocity of an object times its mass, or how fast something is moving times how much it weighs. Therefore angular momentum is the objects mass times the angular velocity where angular velocity is how fast something is rotating expressed in terms like revolutions per minute or radians per second or degrees per second.
To answer this question the voltage of the motor is needed.
As most turbine generators are large enough to be connected to a grid, they will operate at a speed that is predetermined by the grid frequency and the generator's electrical configuration (mainly the number of 'poles' the generator has.) A generator will always run at some multiple of the grid frequency. Most steam turbines on 60 Hz systems operate at either 1800 or 3600 RPM. Hydroelectric turbines run much slower and have a large number of poles. The turbines at Parker Dam, CA, for example, run at a speed of 94.7 RPM. A generator may run at a faster or slower speed if it is disconnected from the grid, but once synchronized it runs at a constant speed. Under certain circumstances a generator may experience a 'slipped pole' (where, for instance, more input force than designed forces it to jump ahead a fraction of a turn), which creates a great deal of physical stress and is something that is considered undesirable operation.
The Moon is much closer to us than any planet, so even its fairly small LINEAR speed results in a large ANGULAR speed from our point of view.
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It depends on how much power the lamps require, and on how they are connected.
Too much load for the generator, the generator began to under speed / overspeed, the governor / part of the generator went into failure, the generator capability was not up to the requirements placed by the system (needing to push out/pull in too many VARs), etc. there are many reasons for a generator to drop a load. Because a load dropped, this does not infer that the generator was the cause either (fault on the system, system instability limits reached, system protection tripped - non-generator related protection).