Its normal power rating is at room temperature. For a temperature of 75 degrees, halve the rating.
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jumper
"this" what... Color band, element material, size...?
"Sensitivity" is not a word normally applied to resistors. Characteristics of resistors include "resistance", "tolerance", "power rating", and "temperature coefficient". "Inductance" and "capacitance" are also used in describing certain critical performance resistors. A 22 KOhm resistor will require 22 v of voltage to induce a current of 1 ma. This is Ohm's Law: voltage = current times resistance.
Yes. The plastic laminate itself is combustible and flammable and if it is adhering to the steel door it cannot help but affect the doors temperature rating.
i dont know the aswer, please answer
This depends on whether your resistors are in serial or parallel. If they are in serial, the value of the resistors just adds up, so : Val(total) = val(single) x n(umber of resistors) If they are in parallel, each added resistor lowers the total value, while the power rating rises : Val(t) = 1/ ( val(s) x n)
I think this refers to the continuous temperature rating, which is the maximum rated winding temperature allowed for a maximum ambient air temperature of 40deg C.
The temperature rating for PVC Schedule 80 piping is typically around 140F to 160F.
The temperature rating for SCH 80 PVC pipes is typically around 140F (60C).
The temperature rating for Schedule 80 PVC pipes is typically around 140F (60C).
Well...you can't. Not a load with an exact 1 watt power rating. But if you can live with a 2-watt power rating (in a circuit that would be yes--it's called derating and you do it for added life, or because you've already got the parts) you'd connect two resistors in series and set that aside, connect two more resistors in series, then connect the two series networks in parallel. Each series network is rated at 2 kilohms; paralleling the two networks brings you back down to 1 kilohm.