The electric field in certain region is given by the function:
The electric field in certain region is given by the function:
E= Akcos(kx)cos(by)i - Absin(kx)sin(by)j
where A = 9 N·m/C, k = 0.65 m-1, and b = 1.4 m-1.The points in the figure are given by values x1 = 1.75 m and y = 2.5 m
Part (a) What is the change in electric potential, in volts, from point (0,0) to point (x1,0)?
Part (b) What is the change in potential, in volts, from point (x1,0) to point (x1, y)?
Part (c) What is the change in potential, in volts, from point (0,0) to point (x1,y1), along the path that passes through (x1,0)?
Part (d) What is the change in electric potential, in volts, from point (0,0) to point (0, y1)?
Part (e) What is the change in electric potential, in volts, from point (0, y) to point (x1, y1)?
Part (f Find the value of the change in potential, in volts, from point (0, 0) to point (x1, y).
Homework Answers
5. The electric field in a certain region of space is given by the vector field...
5. The electric field in a certain region of space is given by the vector field Vector E(Vector r)= Vector E(x,y,z)= (x-z)hatx+(z-y)haty V/m Find any two points P(x1,y1,z1) and Q(x2,y2,z2) such that the electric field at P is perpendicular to the electric field at Q. Evaluate the electric field at each of these two points. (Hint: Use the dot product.).
Moving to another question will save this response. uestion 5 In a certain region, the electric...
Moving to another question will save this response. uestion 5 In a certain region, the electric potential due to a charge distribution is given by the equation: VIX.Y) - 2xy - x2-y, where x and y are measured in meters and Vis in volts. Calculate the magnitude of the electric field in W/m at the point ( - 6 m, y=16m. 2-0 m2
The electric potential over a certain region of space is given by V = a x?...
The electric potential over a certain region of space is given by V = a x? y – bxz – cy?, where a = 8 V/mº, b = 6 V/m², and c = 3 V/m². Find the electric potential at the point (x, y, z) = (1 m, 6 m, 6 m). Answer in units of V. 008 (part 2 of 4) 10.0 points Find the x-component of the electric field at the same point. Answer in units of V/m....
If the electric potential in a certain region of space is given by ? = 2?-???2...
If the electric potential in a certain region of space is given by ? = 2?-???2 where V is in volts and xyz in meters, determine the electric field, in vector form, at point (0, 1, 2).
The electric field in a region is given by E = - _î, where a =...
The electric field in a region is given by E = - _î, where a = 210 N·m/C, b = 4.0 m, and c = 5.6. What is the net charge (in C) enclosed by the shaded volume shown below? b + cx 1.5 m 2.0 m 1.0 m
If in a certain region of space the electric field is constant with value E =-22.0...
If in a certain region of space the electric field is constant with value E =-22.0 N/C J, calculate the work done by the electric field in moving a 0.210 mC charge from the (z,y, z) position (0,0, 0) m to (4.00,4.00,0) m on each of the following two paths. () two steps: from (0,0,0) m to (4.00,0,0) m, and then on to (4.00,4.00,0) m Number Units (i) one step: diagonally from (0,0,0) m to (4.00,4.00,0) m Number Units
The figure below shows two points in an electric field. Point 1 is at (X1,Y1) =...
The figure below shows two points in an electric field. Point 1 is at (X1,Y1) = (3,4), and point 2 is at (X2,Y2) = (12,9). (The coordinates are given in meters.) The electric field is constant with a magnitude of 53.3 V/m, and is directed parallel to the +X-axis. The potential at point 1 is 1200.0 V. Calculate the potential at point 2 Submit Answer Tries 0/12 Calculate the work required to move a negative charge of Q=-470.0 μC from...
Locations A, B. and c are in a regon of uniform electric field, as shown n...
Locations A, B. and c are in a regon of uniform electric field, as shown n te diagram above. Location A is at <-03, o, o> m. Locaton cs atく0.4 electric field 1 . <-650, 350, o> NC. 0.3, 0M·In he region the For a path starting at C and endng at A, calculate: (a) The displacement vector Δ a7- (b) the change in electric potential: (e) the potential energy change for the system when a proton moves from c...
The figure below shows two points in an electric field. Point 1 is at (X1,Y1)-(3,4), and...
The figure below shows two points in an electric field. Point 1 is at (X1,Y1)-(3,4), and point 2 is at (X2,Y2)-(12,9). (The coordinates are given in meters.) The electric field is constant with a magnitude of 62.3 V/m, and is directed parallel to the +X-axis. The potential at point 1 is 1000.0 V. Calculate the potential at point 2 Submit Answer Tries 0/12 Calculate the work required to move a negative charge of Q=-539.0 pC from point 1 to point...
5. The electric field in a certain region of space is given by the vector field Vector E(Vector r)= Vector E(x,y,z)= (x-z)hatx+(z-y)haty V/m Find any two points P(x1,y1,z1) and Q(x2,y2,z2) such that the electric field at P is perpendicular to the electric field at Q. Evaluate the electric field at each of these two points. (Hint: Use the dot product.).
Moving to another question will save this response. uestion 5 In a certain region, the electric potential due to a charge distribution is given by the equation: VIX.Y) - 2xy - x2-y, where x and y are measured in meters and Vis in volts. Calculate the magnitude of the electric field in W/m at the point ( - 6 m, y=16m. 2-0 m2
The electric potential over a certain region of space is given by V = a x? y – bxz – cy?, where a = 8 V/mº, b = 6 V/m², and c = 3 V/m². Find the electric potential at the point (x, y, z) = (1 m, 6 m, 6 m). Answer in units of V. 008 (part 2 of 4) 10.0 points Find the x-component of the electric field at the same point. Answer in units of V/m....
The electric field in a region is given by E = - _î, where a = 210 N·m/C, b = 4.0 m, and c = 5.6. What is the net charge (in C) enclosed by the shaded volume shown below? b + cx 1.5 m 2.0 m 1.0 m
If in a certain region of space the electric field is constant with value E =-22.0 N/C J, calculate the work done by the electric field in moving a 0.210 mC charge from the (z,y, z) position (0,0, 0) m to (4.00,4.00,0) m on each of the following two paths. () two steps: from (0,0,0) m to (4.00,0,0) m, and then on to (4.00,4.00,0) m Number Units (i) one step: diagonally from (0,0,0) m to (4.00,4.00,0) m Number Units
The figure below shows two points in an electric field. Point 1 is at (X1,Y1) = (3,4), and point 2 is at (X2,Y2) = (12,9). (The coordinates are given in meters.) The electric field is constant with a magnitude of 53.3 V/m, and is directed parallel to the +X-axis. The potential at point 1 is 1200.0 V. Calculate the potential at point 2 Submit Answer Tries 0/12 Calculate the work required to move a negative charge of Q=-470.0 μC from...
Locations A, B. and c are in a regon of uniform electric field, as shown n te diagram above. Location A is at <-03, o, o> m. Locaton cs atく0.4 electric field 1 . <-650, 350, o> NC. 0.3, 0M·In he region the For a path starting at C and endng at A, calculate: (a) The displacement vector Δ a7- (b) the change in electric potential: (e) the potential energy change for the system when a proton moves from c...
The figure below shows two points in an electric field. Point 1 is at (X1,Y1)-(3,4), and point 2 is at (X2,Y2)-(12,9). (The coordinates are given in meters.) The electric field is constant with a magnitude of 62.3 V/m, and is directed parallel to the +X-axis. The potential at point 1 is 1000.0 V. Calculate the potential at point 2 Submit Answer Tries 0/12 Calculate the work required to move a negative charge of Q=-539.0 pC from point 1 to point...
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