No. But bear in mind that, in the case of a.c. circuits, 'total', means the phasor (vectorial) sum of the voltage drops, NOT the algebraic sum.
Only if you are sure the voltage is less than 410 volts peak or it might fail. and- only if you are sure the reduced capacitance will not affect circuit operation. For most purposes, no, you should not do that.
The first person to look into electricity in some detail was William Gilbert, an English physician, and he gave it the term 'electricus' (which became 'electric' and 'electricity' over time). Bear in mind that he DISCOVERED electricity, no Invented. It was not created by man, as it already existed before we did.
Should work at nearly full power as long as the polarities of the 4 pin plug are in sync and it is a 3 phase 50Hz motor. Do a regular temperature check under full operating conditions for the first hour to ensure speed is enough for cooling.
In an AC circuit energy flows into an inductor in one quarter-cycle and flows out on the next. Ditto for a capacitor. Therefore over a cycle, no net power or energy is consumed in a pure capacitor or inductor.Another Answer'Power' is the rate at which energy is transferred. In the case of 'pure' inductance or capacitance, energy flows from the supply to the device during the first quarter-cycle of current, where it is temporarily stored within the magnetic (inductors) or electric (capacitors) field, only to be returned to the supply during the following quarter-cycle. You could describe this action as 'energy sloshing back and forth between the supply and the device'. The rate at which this energy transfer takes place is called 'reactive power' and is expressed in 'reactive volt amperes'. None of this energy is lost or, to use your expression, 'consumed'.'True power', expressed in watts, is the rate at which energy is expended -i.e. energy taken from the supply and then dispersed through work (e.g. by motors) or heat transfer (losses). This does NOT occur in purely-inductive or in purely-capacitive loads. So, in answer to your question, 'power' (in the sense of 'true power') is NOT 'consumed' by a pure inductor or capacitor (remember, technically, it's energy that gets consumed, not power -power is simply a rate).You should bear in mind, however, that there is no such thing as a 'pure inductor' or 'pure capacitor' as each will exhibit some degree of resistance. Resistance results in the expenditure of energy, the rate at which it occurs being 'true power'. So 'real' inductors and capacitors combine 'reactive power' with 'true power', the vector-sum of which we call 'apparent power', expressed in volt amperes.
Bear the load. Bare the load would be to uncover the load...
It is of course bear not bare
The cart was unable to bear the heavy load.
At times it seems too rough, things just drag me down It's hard to find the strength to just one more round When I need help, I know where to go 'Cos you're the best friend that I could ever know Being taught the words from you .... from what is true Someone to share the pain that I'm going through And it's a heavy load that I bear and it's a heavy crown that I wear As I travel down this road, it's a heavy load, it's a heavy load It's a heavy load that I bear and it's a heavy crown that I wear So help me one more time, it's such an uphill climb As I travel down this road, it's a heavy load Lord it's a heavy load, Lord it's a heavy load, Lord it's a heavy load Lord it's a heavy load, Lord it's a heavy load....
Christ can bear any heavy load. Nothing is too much for Him.
You can bear a load.
"borne" is the past participle of "bear". A heavy load was borne by the little burro. He had borne many misfortunes through the years.
The verb "bear" refers to carrying something. For example, one might bear a heavy load. When someone says "I can't bear it," they mean they do not feel like they can keep holding the mental, emotional, or physical burden of "it."
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A grizzly bear, polar bear
The expression is not "Come to bare" but is actually "Come to bear." In this sense, "bear" is referring to a load or burden; for example, when a wall in a house bears the weight of an upper floor or a roof it is said to be a "load bearing wall." If something "comes to bear," the force or effect of it starts to be felt.
it is not the correct question but due to heavy fruits the plants are not able to bear them & they had been adapted as creepers.