Potential and potential energy due to two point charges. An electric dipole consists of two point charges, q1 = + 12nC and q2 = −12nC, placed at a distance of 10cm from each other (see figure). a) Calculate the potentials at points a, b and c by adding the potentials due to each charge. b) Calculate the potential energy associated with a point charge of 14.0 nC if it is placed at points a, b, and c of the figure

Potential and potential energy due to two point charges. An electric dipole consists of two point charges, q1 = + 12nC and q2 = −12nC, placed at a distance of 10cm from each other (see figure). a) Calculate the potentials at points a, b and c by adding the potentials due to each charge. b) Calculate the potential energy associated with a point charge of 14.0 nC if it is placed at points a, b, and c of the figure

Related questions

Q: The figure shows a charge +q and another charge -q fixed at points A and B separated by a distance…

A: a. Electric potential at point P is VP=VA+VB=kqrA+k-qrB=kqrA-kq10.0×10-2 m-rA=kq1rA-110.0×10-2…

Q: Question 4. A positive point charge q = +2.50 nC is located at a = 1.20 m and a negative charge of…

Q: Part 2) A charged particle q1 = 1.81 × 10-19 C is generating a radial electric field outwards.…

Q: 2. Find the potential at point P due to uniformly charged rod of length L = 4 m as shown in the…

A: Given, rod length, L = 4 ma = 10 cmq = 8 μC

Q: Three charges, q₁ = 8.50 nC, q2 = 3.50 nC and q3 = -5.00 nC are distributed as shown in Figure 1.…

A: Formula for electric potential is V = Kqr Where K = 9× 10 9 Since potential is a scalar quantity,…

Q: Three point charges, each having an electric charge of 10 nC, are located at coordinates (1 m, 0,…

A: Three point charges : q1 = 10 nC placed at (1, 0,0) m q2 = 10 nC placed at (2, 0,0) mq3 = 10 nC…

Q: Horizontal air wind turbine (HAWT) has the following data, height of tower =10

A: For a Horizontal Axis Wind Turbine Diameter of the rotor=80m Radius of the rotor, R=40m Area swept…

Q: 5. Particles with charges +4.00 µC and +2.00 µC are placed at the opposite corners of a rectangle as…

A: Given q1 = +2.00 μCq2 = +4.00 μCAD = 0.4 mAC = 0.8 mCE = 0.2 mDE = 0.82 + 0.22 = 0.82 m

Q: Three point charges are arranged as shown in figure. A-) Calculate the resultant electric force on…

Q: 4. Two positive charges sit in an (x, y)-coordinate system. The first one has charge q₁ = 0.40 μC…

A: The objective of the question is to find the electric potential at the origin due to two charges…

Q: Aught sosceles triangle of side a has charges q. +2q and as shown in Figure g arranged on 14 (a)…

Q: 5. A particle of unknown charge obtains 0.042 J of kinetic energy as it moves from point A to point…

Q: 4. The electric potential at a certain point in space is 12 V. What is the electric potential energy…

A: GivenV=12 Vq=-3 μC

Q: 1. Two charged, point particles are located at the bottom corners of a square. Suppose q = 4.0 nC…

A: 1.a)The required potential at point ‘a’ due to the two charges is,

Q: 4. In the figure below, q = 1.0 x 10-7 C and a = 5.0 cm, where V = 0 at infinity. a) What is the…

A: The distance from all corners of the square to its center is same and is given by The electric…

Q: q, = 12 nC %3D r = 0.12 m 92 = -20 nC %3D A 9, = -16 nC Three-point charges at the vertices of an…

Q: Two charges, q1 = −17 nC and q2 = 26.5 nC, are separated by a distance d = 2.50 cm as shown in the…

A: We are given 2 charges. We are given distances of points. We have to find electric potential at…

Q: 13. Two pointlike charges of Q, and Q2 are located at (0, 0.3m) and (0.15m, 0) as shown in the right…

A: Electric potential due to point charge V = kq/r Electric potential energy of two charges U = kq1 q2…

Q: The figure below shows two charged particles separated by a distance of d = 3.00 cm. The charges are…

A: Given : Charges q1=-11.5 nC=-11.5×10-9 C, q2=28.5 nC=28.5×10-9 C, Distance d=3 cm=0.03 m. Required:…

Q: Example 6 An electric dipole consists of point charges q = +12 nC and q² = -12 nC placed 10.0 cm…

A: Given that An electric dipole consists of point charges that are q1=+12 nC=12×10-9Cq2=-12…

Q: 4. Two point charges are placed as in the figure. q1=+ 4e q2= - e X= 0 X=5a (a) Find the electric…

Q: 4. Two point-like charges are placed as shown in the figure, d and r1 = 56.0 cm 32.0 cm. What is the…

Question

2. Potential and potential energy due to two point charges. An electric dipole consists of two point charges, q1 = + 12nC and q2 = −12nC, placed at a distance of 10cm from each other (see figure).

a) Calculate the potentials at points a, b and c by adding the potentials due to each charge.

b) Calculate the potential energy associated with a point charge of 14.0 nC if it is placed at points a, b, and c of the figure

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

part (a)

VIEW

part b

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps

SEE SOLUTION Check out a sample Q&A here

Similar questions

6) A +4.0 μC and a -4.0 µC point charge are placed as shown in the figure. Find the electric potential at points A and B, and find the electric potential difference AVBA (k = 1/4neo=9.0 × 10° N·m²/C²) B 0.30 m +4.0 μC 0.40 m -4.0 μC 0.30 m A
Imagine a parallel plate capacitor with mica between the plates. Suppose the potential difference between the plates is 82V, and there is an electric field between the plates with a strength of 320 N/C. If each plate has an area of 0.030 square meters, a) What is the separation between the plates? b) Find the capacitance of the capacitor. c) How much charge is on each plate? d) How much energy is stored in the capacitor? For each part, explain your reasoning.
A) Find the electric potential at point P in the figure B) Suppose the three charges shown in the figure are held in place. A fourth charge, with a charge of +5.32 μC and a mass of 5.23 g, is released from rest at point P. What is the speed of the fourth charge when it has moved infinitely far away from the other three charges?
Q 1 and Q 2 please
1. Use the diagram below: Q1 0.089 m Q2 0.070 m 0.055 m P a) What is the electric field strength at point P due to the charges Q1 (6.0 µC) and Q2 (8.0 µC)? b) What is the electric potential at point P due to the charges Q1 and Q2?
2. Three charges are located at the corners of an equilateral triangle of 10-mm side. What is the value of the electric potential at midway between q2 and 93? Answer: qz =+ 10μC q₁ =+ 2μC q3 =- 5μC
Question 1. Two charges of 1.0µC and -2.0µC are 0.50 m apart at two vertices of an equilateral triangle as in Figure 1. a) What is the electric potential due to 1.0µC charge at the third vertex, point P? b) What is the electric potential due to the -2.0µC charge at P? c) Find the total electric potential at P. d) What is the work required to move a 3.0µC charge from infinity to P? P 0.50 m, 0.50 m 0.50 m 1.0 μC -2.0 µC Figure 1: