3000 ohms are 3 kiloohms.
A Megohm is one million ohms. To convert ohms to Megohms, divide by one million.
You have to convert all values to ohms. 3 kiloohms = 3000 ohms. 3 micoohms = three millionth of an ohm = 0.000003 ohms. The product is: 3000 times 0.000003 = 0.009 ohms squared.
Ohms is a measure of impedance (resistance), not volume.
It depends if the are in series or parallel. In series: 55K ohms In parallel: 5K ohms It really all depends brah.
The resistance [ohms] of an open electronic device is, by definition, infinite, just like a perfect insulator.
If the ohms are infinite or greater than one megohm you can conclude the cable is bad. Usually if the ohms are greater than 3 ohms the cable is bad. If the cable is less than 3 ohms it depends on what the cable is used for and how long it is.
Infinite ohms is what a multimeter will read across an open switch or a broken connection. It means that no electrons will pass between the points being measured.
For an open circuit, you basically have an infinite resistance, and zero current. This can be considered a special case of Ohm's law.
As close to zero ohms as makes no difference.Zero, or close to it. It should be nearly the same as if you touch the probes together.
Your source will supply 5 volts for a range of 0 - 1.5 amps. Ohms law states: R = V/I Therefore: R = 5 / ~0 = ~infinite R = 5 / 1.5 = 3.3 ohms
Sources without internal resistances.ideal voltage source has 0 ohms in series with it, no internal voltage drop all voltage delivered to loadideal current source has infinite ohms in parallel with it, no internal current loss all current delivered to load
Using ordinary multimeter A1-A2 should show high or infinite resitance in both ways, G-A1 low ohms, less than 100r
The difference in between Ohms and Ohms CT is that in Ohms CT it has CT at the end.
3000 ohms are 3 kiloohms.
Ohms are smaller than k-ohms, so number of ohms must be a bigger number. Multiply k-ohms by 1,000 to get the same resistance in ohms.
135 ohms new, and will function properly down to 114 ohms. The chart in the '86-'87 book shows: Empty=110 ohms +/- 7 ohms Full=3 ohms +/- 2 ohms 1/2 full= 32.5 ohms +/- 4 ohms