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: Question 2 Your 5G phone is sending an RF signal at a wavelength of 5.32 mm. What frequency is the…

A: Formula:f=cλwhere, c=3×108 m/sλ=5.32 mm=0.00532 mλ=0.00532 m

Q: wo point charges q1 = +26µC and q2 = −17.5µC are 64 cm apart. a. What is the potential energy of…

Q: Three point charges, q₁ = +52 μC, q2 = -52 μC, and 93 = 85 μC, are fixed in place at the corners of…

Q: 7. Four point-like charges are placed as shown in the figure, a = 38.0 cm and b = 48.0 cm. Find the…

A: The charges are placed in a rectangular configurationq1=-1.6μC=-1.6×10-6 Cq2=-2.6 μC=-2.6×10-6…

Q: 2. Based on the figure below, find the electric potential (a) at point M to the two charges and (b)…

Q: 3. Two point charges q, = 2.2nC and q2 = -1.5nC are 13 cm apart. Point A is midway between the…

A: Here given two point charge q1= 2.2nC and q2= -1.5nC. They are 13 cm apart from each other. A is the…

Q: 1. Two point charges q, = +26µC and q2 = -17.5µC are 64 cm apart. a. What is the potential energy of…

Q: 6. Four point-like charges are placed as shown in the figure, a = 18.0 cm. Find the electric…

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. The figure shows two charge +q fixed at points S and M separated by a distance of 25 cm. If q = 3…

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: Two point charges q1 = +26 µC and q2 = -17.5 µC are 64 cm apart. a. What is the potential energy of…

A: a) The electric potential energy of system of two charges separated by distance r is,

Q: Two point charges q1 = +26 µC and q2 = -17.5 µC are 64 cm apart. a. What is the potential energy of…

A: Given: charges are q1 = 26 μC = 26 × 10-6 C & q2 = - 17.5 μC = - 17.5 × 10-6 C distance…

Q: Two point charges q1 = +26μC and q2 = −17.5μC are 64 cm apart. a. What is the potential energy of…

Q: Three point charges, q₁ = +52 μC, q2 = -52 μC, and 93 = 45 μC, are fixed in place at the corners of…

A: The required solution is following.

Q: Two point charges q1 = +26µC and q2 = −17.5µC are 64 cm apart? a.) What is the potential energy of…

A: q1=26 μCq2=−17.5 μCr=Distance between the charges=64 cmk=Coulomb constant=9×109 Nm2/C2

Q: 1) A small particle has charge -3.80 μC and mass 2.10×10−4 kg. It moves from point A, where the…

A: The system is with conservative forces; Applying law of conservation of energy; Kinetic…

Q: 1. An electric dipole consists of point charges, q1 = +12 nC and q2 = -12 nC placed 10.0 cm apart.…

A: Givenq1 = +12 nC = +12 ×10-9 Cq2 = -12 nC = -12 ×10-9 C

Q: 1. Two pointlike charges of Q, and Q3 are located at (0, 0.15m) and (0.30m, 0) as shown in the right…

Q: Two point charges each of magnitude 3.00 µC are located on the y axis as shown in figure below. a)…

Q: 4. Charges of +2.0 µC, -4.0 µC, and -8.0 µC are placed at three vertices of a square, as shown in…

Q: Two point charges q1 = +26µC and q2 = −17.5µC are 64 cm apart. a. What is the potential energy of…

Q: Four charges are at the corners of a square of side length 1 µm. Four charges are q1 = –4 nC, q2 = 4…

A: The potential is given by V=k qr The potential energy is given by U = k q q'r where, r is the…

Q: 5. In a certain region of space, potential difference between two points A and B is 50 V (VĄ – Vg =…

A: As per our guidelines, we are supposed to answer only first one question in case of multiple…

Q: Two point charges Q1 = +5.55 nC and Q2 = −2.05 nC are separated by 30.0 cm. What is the electric…

Q: 1. Two pointlike charges of Q, and Q3 are located at (0, 0.15m) and (0.30m, 0) as shown in the right…

A: Given Q1 = +1 μCQ3 =-3 μCQ2 =- 1 μC r1 =0.15 m r3=0.30 m

Q: 1. Use the diagram below: Q1 0.089 m Q2 0.070 m 0.055 m a) What is the electric field strength at…

A: Given: charges are Q1 = 6 μC & Q2 = 8 μC

Q: the figure shows a charge +q and other charge -q fixed at points a and b separated by a distance of…

A: (a) The electric potential at P can be given by Vp=kq1AP+kq2BP Substitute the given values…

Q: Question 1. Two charges of 1.0µC and -2.0µC are 0.50 m apart at two vertices of an equilateral…

Q: Two charges of 1.0µC and −2.0µC are 0.50 m apart at two vertices of an equilateral triangle as in…

A: We need to calculate the potential at the third vertex of an equilateral triangle.

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