Jump to latest postTwo 1.2 k resistors are in series and this series combination is in parallel with a 3.3 k resistor. The total resistance is
A. 138
B. 1,389
C. 5,700
D. 880
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Member
Posted June 22, 2022
Two 1.2 k resistors are in series and this series combination is in parallel with a 3.3 k resistor. The total resistance is
A. 138
B. 1,389
C. 5,700
D. 880
Member
Posted June 22, 2022
Two 3.3 k resistors are in series and this series combination is in parallel with a 4.7 k resistor. The voltage across one of the 3.3 k resistors is 12 V. The voltage across the 4.7 k resistor is
A. 24 V
B. 12 V
C. 0 V
D. 6 V
Junior Member
Posted July 6, 2022
Originally Posted by Vysakh9292
b. 1.389
Junior Member
Posted July 11, 2022
Series:R1 +R2 = 2.4 *10 ^3
Parallel: Rt Series * R3/ Rt Series + R3 = 1.389 * 10 ^3
Rt Parallel = 1.389 * 10 ^3
Experienced Member
Posted July 13, 2022
Pro Subscriber
Rseries=1200 + 1200 = 2400
Rtotal = (2400*3300)/(2400+3300) = 1389 ohms or 1.389 k
https://makeabilitylab.github.io/phy...-parallel.html
Since one 3.3k resistor is half the circuit of the 2 3.3k resistors in series, then the total voltage drop across both 3.3k ohm resistors is now 12*2 = 24V. Since 2 3.3k ohm resistors are in parallel with a 4.7k ohm resistor, and voltage is equal across parallel paths, then the voltage across the 4.7k ohm resistor is also 24V.
Junior Member
Posted July 14, 2022
Pro Subscriber
1.389k Ohms
Junior Member
Posted July 16, 2022
Pro Subscriber
5700
2400x3300/2400+3300=
7920000./5700.=1389
1/2.4+1/3.3= .7196
1/7196=1.389
Last edited by edgarenc; July 16, 2022 at 11:38 AM. Reason: was wrong
Junior Member
Posted August 4, 2022
Pro Subscriber
The answer is B.
The absolute best way to make this calculation is, (1/2.4+1/3.3)^-1 = 1.38947 in kOhms that is 1,389 ohms
resistors in series ADD
resistors in parallel inversely add.........................^^^^^^^^^......hence the whole equation to the ^-1
