The conversion from coulombs (c) to amperes (amps) is 1 coulomb 1 ampere.
Tons is a unit of refrigeration capacity, while amps is a unit of current. The conversion between the two depends on the type of load (inductive, resistive, etc). Without knowing the specific details, a direct conversion is not possible.
67.3°C is equivalent to 153.14°F.
Yes, the current measured in amps is the same as the keyword "amps."
There is no conversion. They measure different things. It's like asking 120 miles equals how many pounds? Voltage is also called electric potential. In a water analogy it's like pressure. Amperage is also called electric current. In a water analogy it's like flow rate.
Celsius to Kelvin conversion formula The temperature T in Kelvin (K) is equal to the temperature T in degrees Celsius (°C) plus 273.15: T(K) = T(°C) + 273.15
Get the volts and multiply that by the amps. This will give you the watts.
It will taken 8 amps <<>> The conversion of 2.5 sq mm wire to AWG is equal to a #12 wire. The ampacity of a #12 copper wire with an insulation factor of 90 degrees C is 20 amps.
Single-phase, 2.5 amps; three-phase 1.443 amps.
A #12 copper conductor with a insulation factor of 90 degrees C is rated at 20 amps. For 110 degrees C 35 amps, 125 degrees C 40 amps and for 200 degrees C 40 amps.
530 amps in average conditions, more in cold weather. <<>> The closest conversion will be; 405 mm2 is equal to 800 MCM AWG. A 800 MCM aluminium conductor with an insulation factor of 90 degrees C is rated at 445 amps.
C batteries use 1.5 volts. The number of amps depends on what device it is hooked up to. An average for four C batteries would be about 16 amps.
Assumed as a single copper busbar and not considering the length: @ 30°C = 1403 Amps. @ 35°C = 1355 Amps. @ 40°C = 1306 Amps. @ 45°C = 1255 Amps.
There is no direct conversion between the two. You need to know voltage to calculate amps. This is the equation: P = V * I Where: P = Watts V = Volts I = Amps
To convert watts into amperes you divide the circuit voltage into the watts. Amps = Watts/Volts. <<>> Converting Watts to Amps The conversion of Watts to Amps is governed by the equation Amps = Watts/Volts For example 12 watts/12 volts = 1 amp Converting Amps to Watts The conversion of Amps to Watts is governed by the equation Watts = Amps x Volts For example 1 amp * 110 volts = 110 watts Converting Watts to Volts The conversion of Watts to Volts is governed by the equation Volts = Watts/Amps For example 100 watts/10 amps = 10 volts Converting Volts to Watts The conversion of Volts to Watts is governed by the equation Watts = Amps x Volts For example 1.5 amps * 12 volts = 18 watts Converting Volts to Amps at fixed wattage The conversion of Volts to Amps is governed by the equations Amps = Watts/Volts For example 120 watts/110 volts = 1.09 amps Converting Amps to Volts at fixed wattage The conversion of Amps to Volts is governed by the equation Volts = Watts/Amps For Example, 48 watts / 12 Amps = 4 Volts Explanation Amps are how many electrons flow past a certain point per second. Volts is a measure of how much force that each electron is under. Think of water in a hose. A gallon a minute (think amps) just dribbles out if it is under low pressure (think low voltage). But if you restrict the end of the hose, letting the pressure build up, the water can have more power (like watts), even though it is still only one gallon a minute. In fact the power can grow enormous as the pressure builds, to the point that a water knife can cut a sheet of glass. In the same manner as the voltage is increased a small amount of current can turn into a lot of watts.
You need to know the voltage as well before the conversion can be made.
According to the National Electrical Code (NEC), the ampacity of a 4 AWG THHN copper wire at 75°C is 85 amps, and 95 amps at 90°C.
Celsius to Fahrenheit Conversion: [°F] = [°C] × 9/5 + 32Celsius to Kelvin Conversion: [K] = [°C] + 273.15Celsius to Rankine Conversion: [°R] = [°C] × 9/5 + 491.67Fahrenheit to Celsius Conversion: [°C] = ([°F] − 32) × 5/9Fahrenheit to Kelvin Conversion: [K] = ([°F] + 459.67) × 5/9Fahrenheit to Rankine Conversion: [°R] = [°F] + 459.67Kelvin to Celsius Conversion: [°C] = [K] − 273.15Kelvin to Fahrenheit Conversion: [°F] = [K] × 9/5 − 459.67Kelvin to Rankine Conversion: [°R] = [K] × 9/5Rankine to Celsius Conversion: [°C] = [°R] × 5/9 − 273.15Rankine to Fahrenheit Conversion: [°F] = [°R] − 459.67Rankine to Kelvin Conversion: [K] = [°R] × 5/9Use this equation to convert degrees Celsius/Centigrade (ºC) to degrees Fahrenheit (ºF): (ºC x 1.8) + 32 = ºF