In part a of the figure below, R1 > R2. Ry Rs RI Which statements are...
R R2 V RS 두 R3 RA The figure shows a circuit with a battery and five resistors. What is the current through and the potential difference across resistors R1 and Rz? R1 = 7.00 2, R2 = 5.00 2, R3 = 3.00 2, R4 = 14.0 2, R3 = 4.002, and V = 23.0 v. Current through R : Potential difference across R : Current through R2: Potential difference across R2: | Submit Answer Tries 0/6
Question 2. (15 points) Four resistors are connected as shown in Figure 28.9a (a) Find the equivalent resistance between a and c. R1-16 Ω, R2-139, R3-49, and R4-12 Ω Rs (b) What is the current in each resistor if a potential difference of 0.64 V is maintained between a and. Calculate the current in each resistor I (for Ri resistor)- I (for R resistor) I (for R, resistor)- I (for R resistor Which resistor uses more power, R or R,....
Review Part A In the circuit shown in the diagram(Figure 1), suppose R1 R2 210 and Rs R The emf of the battery is 12.0 V Find the value of R such that the current supplied by the battery is 0.0730 A Submit Incorrect; Try Again; 4 attempts remaining Part B Find the value of R that gives a potential difference of 3.65 V across resistor 2 Submit Provide Feedback Next > Figure 1 of 1 R2
Consider the three resistors R1=11 Ω, R2=29 Ω, and R3=77 Ω in the configuration shown in the figure. A potential difference ΔV=3.5 V is applied between A and B Part (a) Express the equivalent resistance Re of the combination of R2 and R3 in terms of R2 and R3.Part (b) Express the total resistance R off the combination of all three resistors in terms of R1, R2 and R3Part (c) Calculate the numerical value ofthe total resistance R in Ω.Part (d)...
Question 3 In the figure the resistances are R1 1.3 Q and R2 2.6 Q, and the ideal batteries have emfs E12.0 V, and 283 4.8 V. What are the (a) size and (b) direction (up or down) of the current in battery 1, the (c) size and (d) direction of the current in battery 2, and the (e) size and (f) direction of the current in battery 3? (g) What is the potential difference Va-Vb? Ri Ri t, Ry...
Consider the electric circuits below: R1 = 1.00 2: R2 = 2.00 2; R3 =3.002; R4 =4.00 2; Rs = 5.002; R Ro -A R2 Wit R5 RA ww +* 12 V Redraw the circuit on the paper that you will upload later, and simplify the schematics in steps until the circuit is represented by one equivalent resistor. 2 a) Determine the equivalent (total) resistance of the whole circuit b) Determine the potential difference across the resistor Rs c) Determine...
9. In this section of a circuit, resistors Ri, Ro, and Rs combine for an equivalent resistance of 4.0 Ω. What is R2? Let R1-60 Ω and R3-20 Ω. ( point) Ri 10Ω 012Ω 3.0 Ω 1.2Ω 8. Three resistors are connected into the section of a circuit described by the diagram. Then the (I point) wire is cut at point t, and the two cut ends of the wire are separated. Through which of the three resistors, if any,...
please help and explain Consider the electric circuits below: R1 = 1.00 22; R2 = 2.00 2; R3 =3.00 2; R4 =4.00 2; Rs = 5.00 22; RA www R2 WW Ro - R5 WA RA www 구 12 V Redraw the circuit on the paper that you will upload later, and simplify the schematics in steps until the circuit is represented by one equivalent resistor. a) Determine the equivalent (total) resistance of the whole circuit b) Determine the potential...
Question 3. (10 points) Four resistors are connected as shown in Figure 28.9a Find the equivalent resistance between a and c. R1-16 and R4-12 Ω R2-13 R3-4 (a) (b) What is the current in each resistor if a potential difference of 0.64 V is maintained between a and c. Calculate the current in each resistor I (for Ri resistor)- I (for R2 resistor)- I (for R3 resistor) I (for R4 resistor)- Which resistor uses more power, R or R4? Which...
In the circuit shown in the figure, VA = VB = 10.0 and R1 = R2 = R3 = R4 = Rs = 50.0. Current Is flows up through Rs, and I5 = 0.0500 A. Determine the current 14 through R4. Assume the direction of positive current flow is downward through R4. mm VA 14 = A Determine the voltage V2 across R2. mm V2 = V w Determine the power P3 dissipated by R3. R P3 = W