Here is a simple circuit consisting of a non-ideal battery, with emf = 10, and two...

Consider a simple circuit with two resistors connected in parallel. R1 = 30.0 Ohm, R2 =...

Consider a simple circuit with two resistors connected in parallel. R1 = 30.0 Ohm, R2 = 10.0 Ohm, and a 12 V battery Calculate the following values to one decimal places (enter just the number) The equivalent resistance  Ohms The voltage across resistor R1  V The voltage across resistor R2  V The current through resistor R1  A The current through resistor R2  A Consider a simple circuit with two resistors connected in series. R1 = 1.0 Ohm, R2 = 7.0 Ohm, and a 12 V...

Series/Parallel Circuits: When unequal resistors are connected in series across an ideal battery, the same power...

Series/Parallel Circuits: When unequal resistors are connected in series across an ideal battery, the same power is dissipated in each one. the potential difference across each is the same. the equivalent resistance of the circuit is equal to the average of all the resistances. the current flowing in each is the same. the equivalent resistance of the circuit is less than that of the smallest resistor.

3.) We consider a circuit that consists of one battery with unknown voltage (‘EMF’) E, two...

3.) We consider a circuit that consists of one battery with unknown voltage (‘EMF’) E, two unknown resistors R1 and R2, and the known resistor R3 = 56Ω. The currents through the three resistors (I1, I2, and I3) are not known. The power dissipated in the three resistors are P1 = 27W, P2 = 51W, and P3 = 42W, respectively. a) Find the ratio of the currents through the resistors R2 and R3, I2/I3! b) Find the resistor R2! c)...

You are supplied with a battery that has an emf of 10V and a piece of...

You are supplied with a battery that has an emf of 10V and a piece of rubber with a resistivity of 8x10^13 m. The rubber has dimensions of 2 cm x 3 cm x 9 cm. A. If you wanted to use the piece of rubber as a resistor with the lowest possible resistance which faces would you connect the battery to? The 2x3 cm2 , 2x9 cm2 , or 3x9 cm2 sides? Why? B. Calculate the resistance of the...

You are supplied with a battery that has an emf of 10V and a piece of...

You are supplied with a battery that has an emf of 10V and a piece of rubber with a resistivity of 8x1013 ohm m. The rubber has dimensions of 2 cm x 3 cm x 9 cm. A. If you wanted to use the piece of rubber as a resistor with the lowest possible resistance which faces would you connect the battery to? The 2x3 cm2 , 2x9 cm2 , or 3x9 cm2 sides? Why? B. Calculate the resistance of...

The figure shows a resistor of resistance R = 6.27 Ω connected to an ideal battery...

The figure shows a resistor of resistance R = 6.27 Ω connected to an ideal battery of emf  = 13.9 V by means of two copper wires. Each wire has length 21.9 cm and radius 2.90 mm. In dealing with such circuits in this chapter, we generally neglect the potential differences along the wires and the transfer of energy to thermal energy in them. Check the validity of this neglect for the circuit of the figure below. What is the potential...

Figure1 of 1The figure shows a circuit consisting of three parallel branches. 24-volt battery is the...

Figure1 of 1The figure shows a circuit consisting of three parallel branches. 24-volt battery is the first branch. The second branch is a series combination of 5-ohm resistor and 10-ohm resistor. The third branch is a series combination of a 6-ohm resistor and 4-ohm resistor. The figure shows a circuit consisting of three parallel branches. 24-volt battery is the first branch. The second branch is a series combination of 5-ohm resistor and 10-ohm resistor. The third branch is a series...

a 10-volt battery connected across a parallel combination of a 100 (ohm) fixed resistor and a...

a 10-volt battery connected across a parallel combination of a 100 (ohm) fixed resistor and a variable resistor R. It can be shown that the total current in the circuit I (in amperes, A) is the following function of the variable resistor R (in ohms): I= ((100+R)/10R) If the variable resistance is decreased at a rate of 5 ohm/s, calculate the rate of change in the current with time when the variable resistance is 50 ohms.

An automobile battery has an emf of 12.6 V and an internal resistance of 0.0890 ?....

An automobile battery has an emf of 12.6 V and an internal resistance of 0.0890 ?. The headlights together have an equivalent resistance of 5.10 ? (assumed constant). (a) What is the potential difference across the headlight bulbs when they are the only load on the battery? (Enter your answer to at least two decimal places.) V (b) What is the potential difference across the headlight bulbs when the starter motor is operated, with 35.0 A of current in the...

Circuit Element ΔV (V) I (A) R (Ω) Battery (Voltage Source) 9 0.24 37.5 R1 2.43...

Circuit Element ΔV (V) I (A) R (Ω) Battery (Voltage Source) 9 0.24 37.5 R1 2.43 0.24 10 R2 2.92 0.24 12 R3 3.65 0.24 15 a. What is the relationship among the potential drops across each resistor when the resistors are in series? Compare to the potential rise of the power supply. b. What is the relationship for the current through each resistor when the resistors are in series? Compare with the current through the power supply c. Compare...