Charge is distributed uniformly over the plane y = -5 cm with a surface charge density of 1/36n nC/m². Find the Electric field intensity.
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- An infinite cylindrical conductor has an inner radius ra =57.9mm and an outer radius 70.4mm. The conductor has a linear charge density of A₁ =136. On the axis of the cylinder is an infinite line charge with linear charge density ₂ = -9€. Determine the electric field magnitude at the point r = 31.03mm (in) C OA square conducting plate 45.0 cm on a side and with no net charge is placed in a region, where there is a uniform electric field of 81.0 kN/C directed to the right and perpendicular to the plate. (a) Find the charge density (in nC/m²) on the surface of the right face of the plate. nC/m² (b) Find the charge density (in nC/m²) on the surface of the left face of the plate. nC/m² (c) Find the magnitude (in nC) of the charge on either face of the plate. nCPoint P sets above an infinite line of charge 2 m in the positive z direction. The line of charge itself has a charge density ? of -5.0 x 10⁶ C/m. What is the magnitude of the electric field at point P?
- An infinite line charge of uniform linear charge density lambda = -2.9 mu or micro CC/m lies parallel to the y axis at x = 0 m. A point charge of 0.9 mu or micro CC is located at x = 1.0 m, y = 2.0 m. Find the x component of the electric field at x = 2.0 m, y = 1.5 m. Needs Complete typed solution with 100 % accuracy.A line of charge starts at x = xo and extends to positive infinity. The lincar charge density is A (x) = Ao, where Xo is a constant. Determine the electric ficld at the origin.The charge density of a non-uniformly charged sphere of radius 1.0 m is given as: For rs 1.0 m; p(r)= 2po(1-8r/3) For r> 1.0 m; p(r)= 0, where r is in meters. What is the value of rin meters for which the electric field is maximum? 0.25 O 0.50 O 0.75 O 1.0 O 2.0 O Diğer:
- m 100 kg 1.0m 10. The 100 kg block in the figure below takes 6.0 s to reach the floor after being released from rest. What is the mass of the block on the left? The pulley is massless and frictionless. (knight Exercise 7.25) (99 kg, also check problem 6 above)A circular metal plate of radius 17.2 cm carries a total charge of 1.01 μC and the charge is distributed uniformly over the surface of the plate. Determine the surface charge density on the plate and report your answer in µC/m².Thin Sheet of Charge Find the magnitude and direction of the electric field near the center of a thin rectangular conducting sheet that is 49 cm by 71 cm and has an excess charge, Q = -53 μC. E = N/C and it points ✓---Select--- e plate. toward away from Submit 2. CHARGED SPHERE A spherical conductor with radius, r = 0.13 m, has a surface charge density of 42.6 nC/m². (a) Find the excess charge on the sphere. Q= nC (b) What is the strength and direction of the electric field on its surface? E = N/C and it points ---Select--- the sphere
- If a solid conducting sphere of radius 50.0 cm carries a total charge of 150 nC uniformly distributed throughout its volume. Find the (a) charge density of the sphere and (b) the magnitude of the electric field at r = 10 cm.The electric field at a distance of 0.154 m from the surface of an insulating solid sphere of radius 0.385 m is 1970 N/C. Assuming that the charge on the sphere is uniformly distributed, a) what is the charge density within it? b) Calculate the electric field inside the sphere at a distance of 0.150 m from the center.An infinite sheet charge of has a charge density of +44.81 pC/m2 and covers the entire x-y plane. A second infinite sheet of charge has a charge density of −53.2 pC/m2 covers the entire y-z plane. What is the magnitude of the electric field at any point not on either surface?