A charge q1 = 1.62 µC is at a distance d = 1.63 m from a...

A charge q1 = 1.62 µC is at a distance d = 1.63 m from a second charge q2 = −4.87 µC.

https://www.webassign.net/webassignalgphys1/19-p-029-alt.gif

(a) Find the electric potential at a point A between the two charges that is d/4 from q1. Note that the location A in the diagram above is not to scale.

(b) Find a point between the two charges on the horizontal line where the electric potential is zero. (Enter your answer as measured from q1.)

Expert Solution

Let me know in the comment below if you have any problem.

genius_generous answered 2 years ago

Q1 is a -50 µC charge is located at the origin. Q2 is a +20 µC...

Q1 is a -50 µC charge is located at the origin. Q2 is a +20 µC charge is located on the y axis at y = 4 m. Consider a point P located on the x axis at x = 2 m.What is the magnitude of electric field due to Q1 at the point P?What are the x and y components of the electric field due to Q1 at the point P? Be sure to include direction.What is the magnitude...

Three particles, charge q1 = +12 µC, q2 = -19 µC, and q3 = +31 µC,...

Three particles, charge q1 = +12 µC, q2 = -19 µC, and q3 = +31 µC, are positioned at the vertices of an isosceles triangle as shown in the figure. If a = 10 cm and b = 5.7 cm, how much work must an external agent do to exchange the positions of (a) q1 and q3 and, instead, (b) q1 and q2?

A charge Q1 = +4.2 μC is fixed along the y-axis at a distance d =...

A charge Q1 = +4.2 μC is fixed along the y-axis at a distance d = 1.4 m below the origin. A second charge Q2 = +1.6 μC is placed at at a distance d = 1.4 m above the origin as shown. 1) What is the magnitude of the net force on Q2 due to Q1? 0.0202 N 0.00293 N 0.0077 N 0.0308 N Your submissions: C Submitted: Monday, August 31 at 5:48 PM Feedback: Feedback will be given...

A 3.36 µC charge is 1.17 cm from a 5.67 µC charge. How far from the...

A 3.36 µC charge is 1.17 cm from a 5.67 µC charge. How far from the larger charge will the electric field be zero? Answer in cm.

1. A 2 µC charge is located 0.1 mm from a - 5 µC charge. (a)...

1. A 2 µC charge is located 0.1 mm from a - 5 µC charge. (a) What is the magnitude of electric force between the charges? (b) Is the force repulsive, or attractive? 2. The deoxyribonucleic acid (DNA) is 2.17 µm long helical molecule. The ends of the molecule become ionized, with one end being negatively charged and the other end being positively charged. Upon becoming charged, the molecule acts like a spring, and compresses by about 1% of its...

Suppose a charge of -2.40 µC is at the origin and a charge of 3.10 µC...

Suppose a charge of -2.40 µC is at the origin and a charge of 3.10 µC is at the point (0, 3.00) m. (a) Find the electric potential at (4.00, 0) m, assuming the electric potential is zero at infinity. What is electric potential? What factors affect the size of the electric potential at a particular point? (b) Find the work necessary to bring a 4.10 µC charge from infinity to the point (4.00, 0) m.

Point charges q1 = 43 µC and q2 = −21 µC are placed 3.5 m apart....

Point charges q1 = 43 µC and q2 = −21 µC are placed 3.5 m apart. Where must q3 = 24 µC be placed (on the x-axis, in m) so that the net force on it is zero? (Assume that q1 is at x = 0 and q2 is at x = 3.5 m.)

3. (a) A particle of charge q1 = +10.0 µC sits fixed at the coordinates (x...

3. (a) A particle of charge q1 = +10.0 µC sits fixed at the coordinates (x = 0, y = +0.500 m). A second identical particle (q2 = q1) sits fixed at the coordinates (x = 0, y = -0.500 m). A third particle of mass m3 = 5.00 g and charge q3 = -4.00 µC is placed at point A, located at (x = 1.00 m, y = 0). Once released from rest, the second particle moves a distance...

A charge of -1.0 µC is located at the origin, a second charge of 1 µC...

A charge of -1.0 µC is located at the origin, a second charge of 1 µC is located at x = 0, y = 0.1 m, and a third charge of 11 µC is located at x = 0.2 m, y = 0. Find the forces that act on each of the three charges. q = -1.0 µC 2.475 N î + .9 N ĵ q = 1 µC .885 N î + .885 N ĵ q = 11 µC .885 N î + .885 N...

A point charge q1=+0.40 µC is located on the positive y axis at y = 8.0...

A point charge q1=+0.40 µC is located on the positive y axis at y = 8.0 cm, and a charge q2 = +0.65 µC is at the origin. A third charge q3 = -0.90µC is placed at x = 6.0 cm. Calculate: 21) the magnitude and direction of the electric field that exerts on the first charge by q2. 22) the magnitude and direction of the electric field that exerts on the first charge by q3. 23) the x-component of...

Question