Want this question answered?
hight power
on the high power what are you not suppose to touch
Distribution means taking the Electrical power to different usage points where power is needed. It Could be to different equipment in an industry or to different houses in a town or different points of usage in a house and so on.
On a typical light microscope, the low power objective lens will be shorter than the high power objective lens.
The high power is because so you can see it u close and the low power is further away.
It is suggested that turning up transmit power or using a high-gain antenna to increase wireless signal can increase the user's exposure to radiofrequency radiation. Scientists and health professionals are still unsure as to whether this increased exposure is detrimental to one's health.
By using a high-gain antenna to reach wireless users at a distance, you run the risk of increasing your exposure to radiofrequency radiation. Health officials are still unsure as to the health risk involved when increasing this exposure.
Turning up the transmitter power is a good way to insure that more cellphones, farther away, can hear the base station. But it doesn't to anything to help the base station hear the cellphones that are farther away. The only way to increase the coverage range reciprocally is to do something with the antenna. But that's a catch-22 . . . a higher-gain antenna has a narrower beam-width. So it works farther out, but only through a narrower 'window' of directions.
Turning up the transmitter power is a good way to insure that more cellphones, farther away, can hear the base station. But it doesn't to anything to help the base station hear the cellphones that are farther away. The only way to increase the coverage range reciprocally is to do something with the antenna. But that's a catch-22 . . . a higher-gain antenna has a narrower beam-width. So it works farther out, but only through a narrower 'window' of directions.
Turning up the transmitter power is a good way to insure that more cellphones, farther away, can hear the base station. But it doesn't to anything to help the base station hear the cellphones that are farther away. The only way to increase the coverage range reciprocally is to do something with the antenna. But that's a catch-22 . . . a higher-gain antenna has a narrower beam-width. So it works farther out, but only through a narrower 'window' of directions.
Turning up the transmitter power is a good way to insure that more cellphones, farther away, can hear the base station. But it doesn't to anything to help the base station hear the cellphones that are farther away. The only way to increase the coverage range reciprocally is to do something with the antenna. But that's a catch-22 . . . a higher-gain antenna has a narrower beam-width. So it works farther out, but only through a narrower 'window' of directions.
Turning up the transmitter power is a good way to insure that more cellphones, farther away, can hear the base station. But it doesn't to anything to help the base station hear the cellphones that are farther away. The only way to increase the coverage range reciprocally is to do something with the antenna. But that's a catch-22 . . . a higher-gain antenna has a narrower beam-width. So it works farther out, but only through a narrower 'window' of directions.
Power stations use step-up transformers to transmit power at a high voltage instead of a high current. This reduces the power lost in the transmission lines.
in a cellphone,it uses a high power consuption ,the freequency is used to transmit the signal.it requires high frequency.
If you transmit at high voltage, you can send the same power at low current (P=VI), this is good because high current, means that you have high resistance and then you lose power to heat.
Both. That way a lot of power can be transmitted. The largest UK grid circuits work at 400 kV and a line of pylons can transmit up to 6000 MVA.
Balance modulation is a theory that proposes the brain prioritizes maintaining postural stability over executing voluntary motor actions by modulating the excitability of muscle groups involved in balancing tasks. This theory suggests that the central nervous system adjusts the level of stability needed based on environmental demands and individual abilities. It is a key concept in understanding how the body regulates balance during various activities.