A very large nonconducting plate lying in the xy-plane carries a charge per unit area of...
A very large nonconducting plate lying in the xy-plane carries a charge per unit area of 50. A second such plate located at z = 2.25 cm and oriented parallel to the xy-plane carries a charge per unit area of -4o. Find the electric field for the following (a) z < 0 (b) 0 <z<2.25 cm 9/2 (c) z > 2.25 cm 2/2 Your response differs from the correct answer by more than 10%. Double check your calculations. σΙεο
A very large nonconducting plate lying in the xy-plane carries a charge per unit area of 90. A second such plate located at z = 3.80 cm and oriented parallel to the xy-plane carries a charge per unit area of -40. Find the electric field for the following. (a) zso Your response differs from the correct answer by more than 100%, 0/ 0 (b) 0<z < 3.80 cm The response you submitted has the wrong sign.ofe (c) z > 3.80...
A very large nonconducting plate lying in the xy-plane carries a charge per unit area of 6σ. A second such plate located at z = 4.00 cm and oriented parallel to the xy-plane carries a charge per unit area of -7σ. Find the electric field for the following.
A very large nonconducting plate lying in the xy-plane carries a charge per unit area of 7σ. A second such plate located at z = 2.80 cm and oriented parallel to the xy-plane carries a charge per unit area of −8σ. Find the electric field for the following. (a) z < 0 σ/ε0 (b) 0 < z < 2.80 cm σ/ε0 (c) z > 2.80 cm σ/ε0
A very large conducting plate lying in the xy plane carries a charge per unit area of 20. A second such plate located at z = 4.00 cm and oriented parallel to the xy plane carries charge per unit area -30. Find the electric field for the following. (Take upward to be in the positive z-direction.) (a) z 0 a/eo (b) 0 z <4,00 cm a/eo (c) z 4.00 cm alEo A very large conducting plate lying in the xy...
A very large conducting plate lying in the xy plane carries a charge per unit area of 6σ. A second such plate located at z = 4.00 cm and oriented parallel to the xy plane carries a charge per unit area of −1σ. Find the electric field for the following. (Take upward to be in the positive z-direction.) (a) z < 0 -2.5 σ/ε0 (b) 0 < z < 4.00 cm 5??? Your response differs from the correct answer by...
A very large (infinite area) flat nonconducting sheet has uniform charge per unit area sigma = 1.0 x 10^-5 C/m^2. B) Assume the equipotential surfaces are each in steps of 50V. what is the distance between two adjacent surfaces? (Hint: the units of electric field are V/m)
10. For an infinitely wide, very thin plane conductor lying on xy plane, surface 1.0 A/m flows in the +x direction. If a current of current density is J uniform magnetic field 1.0T is applied along z-axis, what is the magnetic force per unit area exerted by the field on the conducting plane?
A very large, horizontal, nonconducting sheet of charge has uniform charge per unit area 9.00 × 10−6 C/m2. A small sphere of mass m = 4.00 × 10−6 kg and charge q is placed 3.00 cm above the sheet of charge and then released from rest. A) If the sphere is to remain motionless when it is released, what must be the value of q? Express your answer with the appropriate units. B) What is q if the sphere is...
solve the problem.. plz.. so difficult .. easily show me 2.25 A disk of radius a in the xy plane carries surface charge of density where f,0 s a constant. (a) Find the electric field intensity E everywhere on the z axis. (b) Specialize your part a result for distances z>> a. 2.25 A disk of radius a in the xy plane carries surface charge of density where f,0 s a constant. (a) Find the electric field intensity E everywhere...