The distance a 5-watt transmitter can transmit depends on various factors such as the environment, antennas used, and obstacles present. In general, a 5-watt transmitter can typically transmit a signal up to a few miles in open space with line-of-sight conditions. However, this range can vary and may be shorter in urban or obstructed environments.
150 watts remains 150 watts after 5 minutes as power is typically constant if not explicitly stated otherwise.
An EPIRB typically transmits at a power of 5-6 watts in the 406 MHz frequency range for satellite distress communication.
5000 watts is equal to 5 kilowatts because 1 kilowatt is equal to 1000 watts. So, to convert watts to kilowatts, you simply divide the wattage by 1000.
The power used by the heater can be calculated using the formula: Power = Voltage x Current. In this case, the power would be 460 volts x 5 amps = 2300 watts.
A modem typically uses around 5-10 watts of electricity when in use.
About 3,731 watts.
150 watts remains 150 watts after 5 minutes as power is typically constant if not explicitly stated otherwise.
An EPIRB typically transmits at a power of 5-6 watts in the 406 MHz frequency range for satellite distress communication.
5000 watts is equal to 5 kilowatts because 1 kilowatt is equal to 1000 watts. So, to convert watts to kilowatts, you simply divide the wattage by 1000.
5 volts
Rolonda Watts is 5' 5".
Fiona Watts is 5' 5".
The power used by the heater can be calculated using the formula: Power = Voltage x Current. In this case, the power would be 460 volts x 5 amps = 2300 watts.
It depends on the current in amps. The watts would be equal to 5 times the current, because watts equals amps times volts.
Miles and miles are the same measurement. Therefore, 5 miles is equal to 5 miles.
The number to use for calculation purposes is 746 watts equals one horsepower.
A modem typically uses around 5-10 watts of electricity when in use.