Zero to 100 ohms.
You need to calculate the equivalent resistance. For instance, if the three resistors are connected in series, simply add all the resistance values up. Then, you calculate the current (in amperes) using Ohm's Law (V=IR); that is, you need to divide the voltage by the resistance.
If you measure a small resistance with the megger set in Mega ohm range you get a very tiny and inaccurate result, and If you measure a huge resistance with the megger set to mega ohm range it will bottom out. To get the most accurate measurements you want what you're measuring to be about the same as the scale you're using.
It is 100+j(500-300) ohm = (100+j200) ohm = 223.6<630 ohm
What would the measured ohms be for two 100 ohm resistors wired in series? Two 100 ohm resistors wired in series measure 200 ohms.
Using Ohm's law V:IR .I:V/R..I:100/5-20...I-20ampere
100 megohm the 10 ohms completely vanishes in the tolerance of the 100 megohm resistor, in that range tolerances can exceed 20% of nominal.
What resistance is the center of your ohm scales, Rx1 range?
Two resistors connected in parallel are 1/2 the sum of their resistance. The resistance of two resistors connected in series is the sum of their resistance. For example: The total resistance of a 100 ohm resistor connected to a 200 ohm resistor in parallel is 100+200 divided by 2 = 150 ohms. The total resistance of a 100 ohm resistor connected to a 200 ohm resistor in series 100+200= 300 ohms.
A 100 ohm, 3000 ohm, and 10000 ohm resistor in parallel has a total resistance of 95.8 ohms. RParallel = 1 / Summationi=1toN (1 / Ri)
The net effective resistance of resistors in series is the sum of the individuals.Combined resistance = (100,000,000) + (10) = 100,000,010Ωhms.
You need to calculate the equivalent resistance. For instance, if the three resistors are connected in series, simply add all the resistance values up. Then, you calculate the current (in amperes) using Ohm's Law (V=IR); that is, you need to divide the voltage by the resistance.
If you measure a small resistance with the megger set in Mega ohm range you get a very tiny and inaccurate result, and If you measure a huge resistance with the megger set to mega ohm range it will bottom out. To get the most accurate measurements you want what you're measuring to be about the same as the scale you're using.
from a very low value of resistance relating to the contact of the wiper material ; approx .. 0.08 ohms / which would be negligable in most circuits . to a maximum value of 100 000 ohms , nominal , directly connected but this depends on tolerance rating or resistor ; maybe 2.0 % ? so varation = 2/100 x 100 000 = 2,000 . depending on tolerance quoted by manufacturers ; 100 000 + 2,000 = maximum = 102,000 ; or a lower value = 100 000 - 2, 000 = 98 ,000 .. so the range could be anywhere between 98,000 and 102,000 maximum . and minimum = approx, 0.08 ohms.
50
It is 100+j(500-300) ohm = (100+j200) ohm = 223.6<630 ohm
What would the measured ohms be for two 100 ohm resistors wired in series? Two 100 ohm resistors wired in series measure 200 ohms.
Using Ohm's law V:IR .I:V/R..I:100/5-20...I-20ampere