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PRACTICE: Find the flux Og of the electric field E = (24î + 30ĵ+ 168) N/C...
Consider the uniform electric field } = (2.0ġ + 7. Ok) 103 N/C. (a) What is its electric flux (in N.m2/C) through a circular area of radius 1.6 m that lies in the yz-plane? (Enter the magnitude.) 0 N·m2/C (b) What is its electric flux (in N·m-/C) through a circular area of radius 1.6 m that lies 45.0° above the xy-plane? (Assume that the unit normal vector is n = (î+k).) 51200 X N·m2/C
An electric field of intensity 2.50 kN/C is applied along the x-axis. Calculate the electric flux through a rectangular plane 0.350 m wide and 0.700 m long if the following conditions are true. (a) The plane is parallel to the yz-plane. 612.5 、N-m2/C (b) The plane is parallel to the xy-plane. (c) The plane contains the y-axis, and its normal makes an angle of 32.5° with the x-axis. 737.96X Use the area, the electric field, and the relative orientation of...
(a) The electric field in a certain region is E (4.0)) N/C. Determine the electric flux due to this freld through an area represented by the vector A (1.51-7.k) m 29 How is the flux defined in terms of the electric field vector, and the area vector? Review dot product rules. N·m2/C (b) Determine the flux due to the same electric field when the surface orientation has changed such that the area is now represented by the vector A -(1.51-7.3)...
For the electric field: E = (10 i + 20y j) N/C, what is the electric flux through ?a 2.0 m^2 portion of the xy-plane 40 Nm2/C. O 20 Nm2/C. O 50 Nm2/C. O zero O
5) Determine the flux of the electric field E = 3.01 - 5.09 + 1.5 k through a 4.0 mº portion of the xy plane. A) 12 Nm²/C B) 6.0 Nm²/ C C ) -20 Nm²/ C D )-2.0 Nm²/C
consider the uniform electric field E = 5.0 + 4.0k) 103 N/С. what is its electric flux (in N·m2/C) through a circular area of radius 3.0 m that lies in the xy-plane? (Enter the magnitude.)
An electric field of intensity 2.50 kN/C is applied along the x-axis. Calculate the electric flux through a rectangular plane 0.350 m wide and 0.700 m long if the following conditions are true (a) The plane is parallel to the yz-plane N m2/c (b) The plane is parallel to the xy-plane. N m2/c (c) The plane contains the y-axis, and its normal makes an angle of 32.5° with the x-axis. N m2/c
An electric field of intensity 3.05 kN/C is applied along the x-axis. Calculate the electric flux through a rectangular plane 0.350 m wide and 0.700 m long if the following conditions are true. (a) The plane is parallel to the yz-plane. N · m2/C (b) The plane is parallel to the xy-plane. N · m2/C (c) The plane contains the y-axis, and its normal makes an angle of 41.0° with the x-axis. N · m2/C
An electric field of intensity 3.95 kN/C is applied along the x-axis. Calculate the electric flux through a rectangular plane 0.350 m wide and 0.700 m long if the following conditions are true. (a) The plane is parallel to the yz-plane. N · m2/C (b) The plane is parallel to the xy-plane. N · m2/C (c) The plane contains the y-axis, and its normal makes an angle of 35.5° with the x-axis. N · m2/C
An electric field of intensity 3.10 kN/C is applied along the x-axis. Calculate the electric flux through a rectangular plane 0.350 m wide and 0.700 m long if the following conditions are true. (a) The plane is parallel to the yz-plane. Nm2/C (b) The plane is parallel to the xy-plane. 0 Nm2/C (c) The plane contains the y-axis, and its normal makes an angle of 40.5° with the x-axis. N·m2/C