Yes, 1 k-ohm means 1 kilohm or 1000 ohms.
If they're connected in series the total resistance is 2000 ohms. If they're connected in parallel the resistance is 500 ohms.
Mega is 8 X 10^6 and Kilo is 8000 X 10^3. For every 3 you go down in powers you divide by 1000, so 8 Mega ohms is 8,000,000 ohms. 8,000 Kilo ohms or 0.008 Giga ohms.
47000 ohms with a 10% tolerance Yellow = 4 Violet = 7 Orange = 1000 (this is the multiplier) Silver = 10% tolerance
You must find a resistance value for 0 dB as reference. If 1 Ohm = 0 dB then 10 ohms = 20 dB and 100 ohms = 40 dB.
The color bands on a resistor represent the resistor's resistance value. In this case, the colors brown, black, red, and gold correspond to the digits 1, 0, 2, and a multiplier of 10%, respectively. Therefore, the resistance of this resistor can be calculated as 10 * 10^2 ohms, which equals 1000 ohms or 1 kiloohm.
Because 1 kiloohm is 1000 ohms. 1000 ohms is a higher resistance value than 10 ohms.
if a hen lays 10 eggs then the product of 1000 hens will be equal to 10000 meg ohms.... Scientist F.Wangdu....
If they're connected in series the total resistance is 2000 ohms. If they're connected in parallel the resistance is 500 ohms.
To write 20 million ohms, you can express it as 20,000,000 ohms. In scientific notation, it can be written as 2 x 10^7 ohms. Both formats effectively convey the same resistance value.
Mega is 8 X 10^6 and Kilo is 8000 X 10^3. For every 3 you go down in powers you divide by 1000, so 8 Mega ohms is 8,000,000 ohms. 8,000 Kilo ohms or 0.008 Giga ohms.
The value 9.2K ohms is written as 9.2 kΩ, where "K" stands for kilo, representing a factor of 1,000. Therefore, 9.2K ohms is equivalent to 9,200 ohms. In scientific notation, it can also be expressed as 9.2 × 10³ ohms.
47000 ohms with a 10% tolerance Yellow = 4 Violet = 7 Orange = 1000 (this is the multiplier) Silver = 10% tolerance
If the ohm meter reads 40 ohms on the resistance x 10 range, the actual resistance value is 40 ohms multiplied by 10. Therefore, the resistance is 400 ohms.
10 x 10 x 10 = 1000
10 ohms or less is considered a good earth ground reference. The lower, the better.
Line current = 10MW / 500kV = 20A Assuming the 1000 ohms is the resistance of the entire transmission line, end to end. Power loss = line current ^ 2 * line resistance = 20A ^ 2 * 1000 ohms = 400 KW
You must find a resistance value for 0 dB as reference. If 1 Ohm = 0 dB then 10 ohms = 20 dB and 100 ohms = 40 dB.