First off, it's going to have a brown and an orange ring for the first two bands but then your last band is going to depend on the tolerance of the resistor whether it's +/- %.05 up to +/- %10.
1.36 volts Ohm's Law: Volts = Amps * Ohms
It is a passive electrical device with a resistive value of 1000 ohms, used for limiting current or dropping voltage.
[abc][k] [10] [a,-b] [01] [-c,k]
KB and k are the same thing.
1 KB = 1 K = 1000 bytes
brown, red, yellow , in case of gold its 5% tolerence, silver 10% tolerence, no color 20% tolence..
the k is the Metric value kilo, or ,1000 so this is a 1000 ohm resistor
Assuming it's 90 v dc, get a 1.5 k-ohm resistor and an 82 k-ohm resistor. Put them in series across the supply, then there will be slightly over 1.5 v across the smaller resistor.
3 x 3kOhm in series = 9 K ohm 3 x 3 k ohm in parallel = 1 k ohm If the resistor array is in the charge / discharge path of the 555, changing from 5 k ohm to other value will increase (9 k ohm) or reduce (1 K ohm) the timing.
The time constant of a 0.05 microfarad capacitor and a 200 K ohm resistor in series is simply their product, 0.05 times 200,000, or 10,000 microseconds, or 10 milliseconds. (Farads times ohms = seconds)
1.36 volts Ohm's Law: Volts = Amps * Ohms
12 milliamps
Green, Black, Orange, (gold / silver) Green = 5 Black = 0 Orange = x10^3 50x10^3 = 50,000 or 50k Ohm
P=IE What voltage (E) will be dropped across the resistor? Current (I) = .090 A Assuming 90 VAC dropped across the resistor, then P=90 x .090 which = 8.1 Watts.
It is a passive electrical device with a resistive value of 1000 ohms, used for limiting current or dropping voltage.
A k ohm is a kiloohm and that is 1000 ohms.
If the resistors are in series the voltage can not be divided, as it has to pass first through one then the other. The amount of current that flows through a set of resistors in series will be the same at all points and the total resistance in the circuit must be equal to the sum of all the individual resistors added together. In other words the 22k and 12k Ohm resistors are the sames as a single 34k Ohm resistor.