Conductance is reciprocal of resistance. Hence, G=1/R. Calculate now
Conductance is the inverse of resistance. The abbreviation is the mho, which is ohm spelled backward. The symbol is the upside down Omega symbol.
(1/6) ohm-1
The time-constant is the resistance times the capacitance, so that's 47 x 47 and because the capacitance is in microfarads, the answer is in microseconds.
If two 1-ohm resistors are connected in parallel, their resistance is 0.5 ohms. If they are connected in series, their resistance is 2 ohms. It is not possible to connect only two resistors in series parallel.
0.1 mhosmhos = 1 / ohmsAnother Answer'Conductance' is the reciprocal of resistance, and its SI unit of measurement is the siemens (symbol: S). The 'mho', its former unit, has not been used since the 1960s. So the answer is 0.1 S.
0.01 siemens.
ohm the resister with a multimeter
Conductance is the reciprocal of resistance, and is measured in siemens (S). So a 5.1 ohm resistor has 1/5.1 conductance, which is approximately 0.196 078 431 372 549 019 607 843 137 254 9 S.
Conductance is an opposition of Resistance and it is denoted by G. It is given by the relationship G = 1/R . In past the unit of conductance was (mho) which is opposite to (ohm). But these days the unit of conductance is Siemens which is denoted by 'S'.
Conductance is the inverse of resistance. The abbreviation is the mho, which is ohm spelled backward. The symbol is the upside down Omega symbol.
(1/6) ohm-1
Siemens
The SI unit for conductivity is the siemens per metre. Conductivity is the reciprocal of resistivity, whose SI unit is the ohm metre.
The conductance of a given conductor, C = La/l ..(i)\ L = l/Ra ..(ii)The resistance is expressed in units of ohm, the conductance has units of ohm-1 or mho.The conductance of solutions is also governed by the same relations. From (i), if l = 1,a = 1, the specific conductance L = C. That is,the specific conductance (L) is the conductance of the solution enclosed between two electrodes of 1 sq. cm area and 1 cm apart. when you dilute the solution the concentration decrease and the specific conductance also decreaseThe conductance of a solution depends upon the number of ions present and hence on the concentration. To compare the conductivity of different solutions, it is necessary to take the concentration of the solutions into consideration. It is done by using equivalentconductance, l.
you divide the volts by the ohms
5 amps. Use Ohm's Law: I = V/R = 90/18 = 5
Put an ohm meter accross it and read the resistance, or turn on the ign for about a minuet and feel the resister, but be careful they can get quite hot though if their working.