You add up the currents in each branch. The current in each branch is just (voltage acrossd the parallel circuit)/(resistance of that branch) . ==================================== If you'd rather do it the more elegant way, then . . . -- Write down the reciprocal of the resistance of each branch. -- Add up the reciprocals. -- Take the reciprocal of the sum. The number you have now is the 'effective' resistance of the parallel circuit ... the single resistance that it looks like electrically. -- The total current through the parallel circuit is (voltage acrossd the parallel circuit)/(effective resistace of the parallel circuit) .
The reciprocal of any number is 1 divided by that number. Therefore, the reciprocal of 10.1 is 1/10.1.The reciprocal of any number is 1 divided by that number. Therefore, the reciprocal of 10.1 is 1/10.1.The reciprocal of any number is 1 divided by that number. Therefore, the reciprocal of 10.1 is 1/10.1.The reciprocal of any number is 1 divided by that number. Therefore, the reciprocal of 10.1 is 1/10.1.
0.0039526 is the reciprocal of 253.
No, there is no reciprocal of 0.
Yes.
reciprocal of resistance
Total equivalent resistance = reciprocal of (sum of reciprocals of each individual resistance)
Total equivalent resistance = reciprocal of (sum of reciprocals of each individual resistance)
impedance/resistance
ohms is the SI unit of resistance MHO (siemens) is the SI unit of reciprocal of resistance ie conductance
Electrical conductance is the reciprocal of resistance and is measured in siemens (symbol: S).
The conductance of a wire is the reciprocal of its resistance. Therefore, for a wire with a resistance of 400 ohms, the conductance would be 1/400 siemens, or 0.0025 siemens.
Roughly speaking, resistance. Transconductance refers to the reciprocal of the amplifying device's internal resistance. The concept is particularly useful if the device is a voltage-controlled current source (tube or FET). In vacuum tube amplifiers, transconductance (Gm) is (u / Rp), where... u is the amplification factor. u= (Gm x Rp). Rp is the anode (drain) resistance. Rp is the internal resistance of the amplifying device. Gfs is synonymous with Gm. The reciprocal of Gm (or Gfs) is (Rp / u). Another term for this reciprocal is transresistance.
The word conductance is defined as the reciprocal of resistance. It is inversely proportional to the resistance. Mathematically, it can be expressed as: G=(1/R) or G=(R/z^2)
Conductance is reciprocal of resistance. Hence, G=1/R. Calculate now
The equivalent resistance through the entire surface is equal to the sum of all the individual resistances in parallel. To calculate this, you would add the reciprocals of each resistance and then take the reciprocal of the sum.
Siemens is a unit of conductivity - it is the reciprocal of resistance. Mhos is also used for this measure.