In the diagram below each unit on the horizontal axis is 6.00 cm and each unit on the vertical axis is 6.00 cm. The equipotential lines in a region of uniform electric field are indicated by the blue lines. (Note that the diagram is not drawn to scale.)
(a) What is the direction of the electric field?
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(b) Determine the magnitude of the electric field in this
region.
_______V/m
(c) Determine the shortest distance for which the change in
potential is 3 V.
In the diagram below each unit on the horizontal axis is 6.00 cm and each unit...
diagram above each unit on the horizontal axis is 3.00 cm and
each unit on the vertical axis is 3.00 cm. The equipotential lines
in a region A) Determine the magnitude of the electric field in
this region. V/m B)Determine the shortest distance for which the
change in potential is 3 V.
Two 1 cm diameter conducting spheres are charged to plusminus 500V and placed on the r-axis as shown below. a. Find the potential at the three marked points P_1, P_2, and P_3. b). Sketch the diagram onto your paper (or use a copy of this homework) and draw in approximate equipotential lines for: + 400V, +300V, +200V, +100V, 0V, -100V, -200V, -300V, -400V. c. Sketch the Electric Field lines for the system.
Consider the two charges on the x-axis in the diagram below. Each charge is 22 cm from the origin, Q1= 4.35 mu C and Q2= 6.79 mu C. What is the electric potential at point P on the y-axis a distance of 64 cm from the origin (in V)? What is the magnitude of the electric field at the ORIGIN (in N/C)? Tries 0/20
The equipotential lines in a region of electric field are shown in the diagram below. For each path indicated below, what is the work done by the electric field in moving a charge q = +9.2 x 10-7C along that path? Here V0 = +120 V. (a) from A to B(b) from A to C (c) from A to D(d) from D to C
The top left diagram below shows a 1-C positive charge placed in a uniform external electric field. The electric field in which the charge is placed is represented by field lines (drawn in red), and the resulting electric force on the charge is represented by the blue vector. Suppose the 1-C charge is removed, and is replaced, in turn, by each of the charges shown in the other three diagrams below. Assuming that the external electric field remains the same,...
The top left diagram below shows a 1-C positive charge placed in
a uniform external electric field. The electric field in which the
charge is placed is represented by field lines (drawn in red), and
the resulting electric force on the charge is represented by the
blue vector. Suppose the 1-C charge is removed, and is replaced, in
turn, by each of the charges shown in the other three diagrams
below. Assuming that the external electric field remains the same,...
The top left diagram below shows a 1-C positive charge placed in a uniform external electric filed. The electric field in which the charge is placed is represented by field lines (drown in red) and the resulting electric force on the charge is represented by the blue vector.
The top left diagram below shows a 1-C positive charge placed in
a uniform external electric field. The electric field in which the
charge is placed is represented by field lines (drawn in red), and
the resulting electric force on the charge is represented by the
blue vector. Suppose the 1-C charge is removed, and is replaced, in
turn, by each of the charges shown in the other three diagrams
below. Assuming that the external electric field remains the same,...
C moves to the right in a The shaded region in the diagram below is a region of uniform electric field that is parallel to the horizontal direction (x-axis). A charge Q = -4.9 straight line through this region, passing through points A and B (as shown by the green arrow). X XA (a) If the charge accelerates as it moves from A to B, what is the direction of the electric field in this region? to the left O...
The table below lists the electric field at various locations along the +-axis. The negative sign means that the electric field points in the -x-direction. Electric Field, E (kN/C) -295.0 Position, r (m) 2.00 3.00 4.00 5.00 6.00 7.00 8.00 9.00 188.8 156.1 96.3 83.9 (a) Assuming that the field was created by a single point charge, determine the value and location of this charge QNumber Units rNumber Units (b) What is the electric field for the two values that...