How will the readings of two ammeters with different resistances compare if placed in parallel with...

when two resistances connected in series and parallel their equivalent resistances are 15 ohm and 56/15...

when two resistances connected in series and parallel their equivalent resistances are 15 ohm and 56/15 respectively . Find the individual resistance

QUESTIONS FOR SERIES AND PARALLEL CIRCUITS 1. i) How does the equivalent resistance of a series...

QUESTIONS FOR SERIES AND PARALLEL CIRCUITS 1. i) How does the equivalent resistance of a series circuit compare to each individual resistor? ii) Answer the same question for a parallel circuit? 2. Assume that you have three 2Ω resistors. Show using a schematic drawing, how youwould connect these together to achieve the following resistances: (a) 1Ω, (b) 3Ω, and (c)4 Ω. Note that you do not always have to use all three resistors to achieve your goal. PAGE 2 3....

If two electric resistances are connected to a battery for a minimum electric current should flow...

If two electric resistances are connected to a battery for a minimum electric current should flow through the circuit, how you should connect these resistors? Either parallel or series and why?

1.Two 60.0 Ω resistors are connected in parallel and this parallel arrangement is then connected in...

1.Two 60.0 Ω resistors are connected in parallel and this parallel arrangement is then connected in series with a 30.0 Ω resistor. The combination is placed across a 120V potential difference. Can you design the circuit diagram using above data? According to your observation show that total voltage is equal to the sum of the individual voltage and also show that total power dissipated is equal to the sum of the power dissipated by individual resistor. Also suggest what will...

Three resistors with resistances of 10 Ω, 6.67 Ω and 4.25 Ω are connected in parallel...

Three resistors with resistances of 10 Ω, 6.67 Ω and 4.25 Ω are connected in parallel to each other and to a 12V battery. What is the total current in this circuit?

23.Two 60.0 Ω resistors are connected in parallel and this parallel arrangement is then connected in...

23.Two 60.0 Ω resistors are connected in parallel and this parallel arrangement is then connected in series with a 30.0 Ω resistor. The combination is placed across a 120V potential difference. Can you design the circuit diagram using above data? According to your observation show that total voltage is equal to the sum of the individual voltage and also show that total power dissipated is equal to the sum of the power dissipated by individual resistor. Also suggest what will...

Explain how different resistances can cause the same potential differences (voltages). (in a circuit)

Explain how different resistances can cause the same potential differences (voltages). (in a circuit)

​Two resistors, each with a resistance of 200 M​Ω are connected in parallel. Two capacitors, each...

​Two resistors, each with a resistance of 200 M​Ω are connected in parallel. Two capacitors, each with a capacitance of 10 ​μ​F are connected in series. The combination of resistors and the combination of capacitors are then connected in series with a battery supplying an emf of 12 V. The electrical circuit is completed. The capacitors are uncharged at the beginning. (a) Illustrate the circuit. (b) Calculate the capacitive time constant of the circuit. (c) What fraction of the final...

The electronics supply company where you work has two different resistors, R1 and R2, in its...

The electronics supply company where you work has two different resistors, R1 and R2, in its inventory, and you must measure the values of their resistances. Unfortunately, stock is low, and all you have are R1 and R2 in parallel and in series - and you can't separate these two resistor combinations. You separately connect each resistor network to a battery with emf 45.0 V and negligible internal resistance and measure the power P supplied by the battery in both...

Four capacitors are placed within an 18.0 V circuit as follows: Two capacitors 30.0 μF and...

Four capacitors are placed within an 18.0 V circuit as follows: Two capacitors 30.0 μF and 65.0 μF are connected in series with the battery, followed by two capacitors 45.0 μF and 80.0 μF connected in parallel. Being as specific and detailed as possible (without performing any calculations!), How the equivalent capacitance in this circuit would change if the two capacitors originally in series were now connected in parallel, and the two capacitors originally connected in parallel were now connected...