A +4.3 microCoulomb charge is 25 cm to the right of a -7.2 microCoulomb charge.
A) Determine the potential of the midpoint between the two charges.
B) Determine the magnitude of the electric field at the midpoint between the two charges.
To find the potential at the midpoint, potential due to individual charge is found and added.The electric field intensity is found by assigning position vectors to each charge.
A +4.3 microCoulomb charge is 25 cm to the right of a -7.2 microCoulomb charge. A)...
A +4.5 μC charge is 22 cm to the right of a -8.4 μC charge. At the midpoint between the two charges what is the magnitude of the electric field?
Two part charges lie on the X axis. The charge of +6.2 microcoulomb is at the origin, and a charge of -9.5 microcoulomb is located at x=12.0cm. What is the net electric field at x=4cm.
11 Review Part A Two point charges of equal magnitude are 7.2 cm apart. At the midpoint of the line connecting them, their combined electric field has a magnitude of 47 N/C Find the magnitude of the charges. Express your answer using two significant figures pC SubmitP
A 4.3 µC (q1) and a -2.5 µC
(q2) charge are placed 1.6 cm apart.
Determine the two points (to the
right and left of the negative charge) where the electric potential
is zero.
Consider a 2.00 microCoulomb charge sitting at the point (0.0cm, 0.0cm) , and a -3.00 microCoulomb charge sitting at the point (1.0cm,-1.0cm). a) determine the electric potential at the point (2.0cm,0.0cm) b) If a proton travels along a path that passes through the point (2.0cm,0.0cm) and later through the point (4.0cm, 0.0cm) at which point will the proton be moving faster? c) what would the change in the protons speed be in the previous question?
Use Coulomb's law to determine the magnitude of the electric
field at points A and B in (Figure 1) due to the two positive
charges (Q = 4.5 μC ) shown. Suppose that a = 4.3 cm .A) Determine the magnitude of the electric field at A. B) Determine the angle between the direction of the electric field
at point A and the positive x-direction. C) Determine the magnitude
of the electric field at point B. D) Determine the angle between the
direction...
A -8.50 nC point charge and a +17.0nC point charge are 18.0 cm apart on the x-axis. a) What is the electric potential at the point on the x-axis where the electric field is zero? b) What is the magnitude of the electric field at the point on the x-axis, between the charges, where the electric potential is zero?
Two charges of magnitude |?| = 10 ?? are separated by a distance of 10 ?? along a horizontal axis. What is the potential as well as the magnitude and direction of the electric field at the midpoint between the two charges if a) both charges are positive and b) the left charge is positive and the right charge is negative?
A +7.5 nC point charge and a -2.0 nC point charge are 3.0 cm apart. What is the electric field strength at the midpoint between the two charges? The right answer is 2.2 *10^5. Can you guys please tell me how did they get this answer ?
Two 3.8 microCoulomb charges are 3.6 m apart what is the potential at each charge due to the other in V? (integer) Two 2.5 microCoulomb charges are 1.6 m apart. how much energy in millijoule went into assembling these two charges? (one digit behind the decimal)