A charge q;=2.0µC is located at the origin and a charge q2= -6.0 µC is located at (0,3)m. A Find the potential energy when all three charges start out infinitely far apart and are then brought to the positions below.

A charge q;=2.0µC is located at the origin and a charge q2= -6.0 µC is located at (0,3)m. A Find the potential energy when all three charges start out infinitely far apart and are then brought to the positions below.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Related questions

Q: A point charge of 5 nC is located at the origin. If V = 2 V at (0, 6, -8), find The potential * at…

Q: On a square wireframe with side length a in empty space, there is a linear charge density ρl.…

Q: 4.22 It is known that the potential is given as V= 80r0.6 V. Assuming free- space conditions, find:…

Q: Point charges 5 nC and —2 nC are located at (2,0, 4) and (-3,0, 5), respectively. (a) Determine the…

A: (a) Calculate the force on the 1nC charge due to the 5nC charge.…

Q: Point charges 5 nC and -2 nC are located at (2, 0, 4) and (-3, 0, 5), respectively. (a) Determine…

A: In this question, Two point charges are located at the point A and B as shown in the below circuit.…

Q: Point charges 5 nC and -2 nC are located at (2, 0, 4) and (-3,0, 5), respectively. (a) Determine the…

Q: Two point charges Q = 2 nC and Q = -4 nC are located at (1, 0, 3) and (-2, 1, 5), respectively.…

A: Given Data: Q1 = 2 nC Q2 = -4 nC r1 = (1,0,3) r2 = (-2,1,5)

Q: On a square wireframe with side length a in empty space, there is a linear charge density ρl.…

Q: Point charge -4 nC is located at (2,-1,3). Find the potential at(1,0.1) assuming zero potential at…

A: The value of charge q= -4 nC Position of charge is A(x1, y1, z1) = (2,-1, 3). Position of point…

Q: A uniform line charge lies along the y axis with charge density p = 30C. Obtain D at (4,4, 3)m. %3D…

Q: 3. The electric potential in certain region of space is given by V=-7x² + 3x, where V volts, and x…

A: We need to find out electric field and location of minimum potential

Q: Four identical point charges, each with charge q = + 30 µC, are placed at the corners of a…

A: Given,q1=q2=q3=q4=30μC and Q=56μC From pythagoras theorem, r2=42+32r=25=5⇒r=5m

Q: Point charges 5 nC and -2 nC are located at (2, 0, 4) and (-3, 0, 5), respectively. (a) Determine…

Q: Two point charges +1 pµC and -1 uC are being located at points (0,0,1) and (0,0, 1) respectively.…

Q: A thin rod of length L has a uniform charge density A. Which of the following gives the correct…

Q: 2. The electric potential of some configuration is given by the expression V(r) = A where A and 2…

A: Given data, Electric potential, Vr=Ae-λrr

Q: Two point charges -31/2 µC and + 99/4 µC are located at (2,-1,3) and (0,4,-2), respectively. Find…

A: The potential at the point (1,0,1) will be due to the sum of the potential of each charge. The…

Q: The electric potential of some configuration is given by the expression V (r)= A– where A and å are…

A: The electric potential is given as: Vr=Ae-λrr The electric field is derived from the electric…

Q: A hollow, thin-walled insulating cylinder of radius R and length L (like the cardboard tube in a…

A: According question we need to (a) calculate elctron potental (b) show the result of part A reduce to…

Q: The following charges distributions are present in free space as shown in Figure, point charge 6 nC…

A: The magnitude of electric field due to point charge is kqr2=9*109*6*10-9(22+02+62)2=1.35 Taking the…

Q: What is the electric field at (x,y,z) = (1,1,1) if the electric potential is known to be V(x,y,z) =…

Q: The following charges distributions are present in free space as shown in Figure, point charge 6 nC…

A: Coulomb's law: Force between two point charges q1 and q2 is directly proportional to the product of…

Q: 1) Two point charges -8 μC and 6 μC are located at (2,2-,3) and (0,1,-2) respectively. Find the…

A: Given two points charge Q1 = - 8 μC. A (2,2-,3) Q2 = 6 μC. B (0,1,-2) potential at…

Q: Four point charges Q, 2Q, -Q. -2Q are located at (0,0.a), (0,0.2a), (0,0,-a). and (0,0,-2a)…

Q: Three point charges are located at the corners of a square of side L equal to 30 cm. The charge Q1…

A: The solution is given below.

Q: 9. One issue encountered during the exploration of Mars has been the accumulation of static charge…

A: Solution

Q: Two-point charges contribute to the electric field in a region in vacuum. One is -10 nanocoulombs at…

Q: Q3: Two point charges Q = 2 nC and Q = -4 nC are located at (1, 0, 3) and (-2, 1, 5), respectively.…

Q: An electric field in free space is E = (5z3/ε0) az V/m. Find the total charge contained within a…

Q: The charge q2 is now replaced by two charges q3 and q4 which each have a magnitude of -1.65 µC, half…

A: It is given that: q3=q4=-1.65μCa=2.3 cm

Q: A point charge Q=2000pc, is at the origin of spherical coordinates. A concentric spherical…

Q: The following charges distributions are present in free space as shown in Figure, point charge 6 nC…

A: Given: The following charge distributions are present in free space: 1) point charge 6 nC at P(2, 0,…

Q: 4. Three point charges are located, each a distance a from the origin. Find a simple approximate…

Q: 4. A thin non-conducting rod of finite length / carries a total charge q, spread uniformly along it.…

A: line of charges of length 'l' and charge 'q' Consider point A and B equidistant from mid point. Say…

Q: Q3/A point charge of 0.25 µC is located at r = 0, and uniform surface charge densities are located…

A: Given that: Point charge located at r = 0 is Q1= 0.25 μC. The uniform surface charge with charge…

Q: A point charge Q=2000pc, is at the origin of spherical coordinates. A concentric spherical…

Q: Two point charges +0.5 µC and-0.5 µC are being located at points (0,0,1) and (0,0, - 1)…

Q: 1- Define the electric potential between two points, then for three point charges Q 1 = 1mc, Q 2 =…

A: It is given that: Q1=1mC at 0,0,4Q2=-2mC at -2,5,1Q3=3mC at 3,-4,6

Q: TRY SOLVING THIS! A point charge, -3 µC s placed at the point (0, 2) m while a charge +2µC is placed…

A: Given Point charge q1=-3 μC at (0,2) mq2=+2 μC at (2,0) m

Q: Point Charges 1 mC and -2 mC are located at (3,2,-1) and (-1,-1,4), respectively. Calculate the…

Q: A sphere of charge with inner radius a and out charge distribution of p,[C/m3] at region a < Pv

Q: Three point charges are positioned in the x-y plane as follows: 5 nC at y = 5 cm, -10 nC at y = -5…

A: Electric Field: A physical region which contains electrically charged particles which produce…

Q: point charge Q is at origin , show that V. D= 0 every where? a

Q: Q5. Two point charges -22/2 µC and + 99/4 µC are located at (2,-1,3) and (0,4,-2), respectively.…

A: Two point charge -22uC located at (2, -1, 3) +99/4 uC charge located at (0, 4,-2) Find the…

Q: Point charges 1 mC and -2 mC are located at (3, 2, -1) and (-1, -1, 4), respectively. Calculate the…

Q: As seen in the free space as q1 = 3 nC and q2 = -4nC charges, it is placed on the y = 1 and y = 6…

A: We will use potential formula to calculate the potential at original .

Q: Point charges I mC and -2 mC are located at (3. 2, -1) and (-1,-1,4), respectively. Calculate the…

Q: Q2) Three point charges are located within an electric field. If the first charge = (0.5× 10 −8 C)…

A: 2) A point charge is a speculative charge situated at a single point in space. While an electron can…

Q: Q3: Two point charges Q= 2 nC and Q = -4 nC are located at (1, 0, 3) and (-2, 1, 5), respectively.…

A: Here two point charges are given and we have to find potential at given point P

Concept explainers

Electric field

A physical field present around an electrically charged particle that exerts a force on all other charged particles is called an electric field. The charged particles present in the field either repel or attract. From electric charges or time-varying magnetic fields, the electric field originates. One of the manifestations of electromagnetic force which is one of the four fundamental forces present in nature are the electric fields and magnetic fields.

Question

100%

charge q=2.0µC is
located at the origin and a
charge 92= -6.0 µC is
located at (0,3)m.
-6.00 μC
3.00 m
Find the potential energy
when all three charges
start out infinitely far apart
and are then brought to
the positions below.
2.00 µC
3.00 µC
E4.00 m→
Answer: -54.9x10-3 J

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Describe the behavior of the voltage across the resistor with time as thecapacitor charges. Explain the reason for this behavior.
A resistor & a capacitor are connected in series across 230V, ac supply. The current taken by the circuit is 4 A for 50 Hz frequency. The current is reduced to 2 A, when the frequency of supply is decreased to 40 Hz. Determine the value of resistor & the capacitor.
Let's say you measure t1/2 to be 0.037 seconds and the resistance in the circuit is 68 Ohms. Then what is the capacitance in micro Farads? Answer in micro Farads.
QUESTION 5 A 20 ohms resistor is connected in series with a capacitor of 0.01 farad and an emf in volts given by 40e-3¹ +20e-6. Assuming that the charge and current on the capacitor are zero at t=0, determine the charge and current at any time.
A 20-ohm resistor and a capacitor are connected in series with a battery of 60 volts. At t = 0, there is no charge on the capacitor. Find the capacitance if the current at t = 5 seconds is 3/e^s amperes. Ans. 0.05 Farads
A coil has a resistance of 18 when it mean temp is from 20o C to 50o C. Find its mean temp rise when its resistance is 21 and the surrounding temp is 15o C. A potential difference of 250 V is applied to a copper field coil at a temp of 15o C and the current is 5A. What will be the mean temp of the coil when the current has fallen to 3.91 A, the applied voltage being the same as before.
•A system consists of ,The electric potential opplied to this cell droes o cubie cell, to 1oV from 30OV in one step. •Whot is the hork done? •Whot wald the work done be if it hernt from 3or to 20v and then to lov?
What is the value of the induced voltage of the self-inductance when the rate of current is from 200 uA to 20 uA and the total time interval is 5 uS?
What do you think will happen to the current if the frequency is adjusted higher in the pure inductance experiment? and what will happen to the current if the frequency is adjusted lower in pure inductance experiment? explain why please
One steradian represents .... .... ... (rad)^2 O degree O 2rad (rad)3 O
2.)What is the difference between Ampere's law and Biot-Savart's law?
3-10 A0.25-F capacitor has a current waveform i(t) as shown in Figure P3–10. Determine and plot the voltage waveform v(t) as a function of time. The capacitor is initially a and plot the voltage waveform v(t) as a function of time. The capacitor is imu uncharged. FIGURE P3-10 ilt) 4 A 6. -4 A