Need help please and thanks! 1. A line of uniform positive charge density + extends from...
A uniform line charge of linear charge density = 2.6 nC/m extends from x = 0 to x = 5 m. (a) What is the total charge? nC (b) Find the electric field on the x axis at x = 6 m. N/C (c) Find the electric field on the x axis at x = 8 m. N/C (d) Find the electric field on the x axis at x = 250 m. N/C (e) Find the field at x =...
A line of uniform charge extends from x = 4.0m to x = 5.0m, and has a linear charge density of 3.0×10^-6 C/m. What is the magnitude and direction of the resulting electric field at x = 0m?
A uniform line charge extends from x = - 2.3 cm to x = + 2.3 cm and has a linear charge density of = 5.8 nC/m. (a) Find the total charge. nC * Find the electric field on the y axis at the following distances. (b) y = 4 cm N/C (c) y = 12 cm N/C (d) y = 4.5 m N/C (e) Find the field at y = 4.5 m, assuming the charge to be a point...
Consider a charged ring with radius R and uniform line charge density +λ.(a) Find the electric field at the center O of the ring. (b) What is the electric field at a field point P which is on the central axis with a distance z above the center? (c) Show that in the limit when z » R, the electric field reduces to the form Does this result physically make sense? Explain. (d) Using binomial approximation, , find the electric field at points along the...
A line of charge starts at X-HX0 and extends to positive infinity. The linear charge density is λ-λ0x0/X, where λο 1s a constant. Determine the electric field at the origin. (Use any variable or symbol stated above along with the following as necessary: ka.)
A non-uniform line charge extends from -5 cm to +5 cm on the x-axis. The linear density is given by lambda (x) = 0.0001 x^3 (in units of C/m). What is the net charge Q_net on the rod (express your answer in mu C)? What is the electric field evaluated at the origin E_0 (both magnitude and direction)? Now let lambda (x) = -16*7 x^6 (C/m) and re-evaluate the net charge Q_net and the electric field at the origin E_0.
6. Consider a line charge with uniform charge density λ lying on the x-axis from x =-L to x = 0. a) Determine the electric field a distance y above the right end of the line charge (point P in the figure) and a distance r to the right of the line charge (point P2 in the figure). Pi C-I b) In lecture you saw the electric field of an infinite line charge. Now we wil consider a "semi-infinite" line...
6. Consider a line charge with uniform charge density λ lying on the x-axis from z =-L to 0. a) Determine the electric field a distance y above the right end of the line charge (point P in the figure) and a distance r to the right of the line charge (point P2 in the figure). P2 b) In lecture you saw the electric field of an infinite line charge. Now we will consider a "semi-infinite" line charge; that is,...
A line of charge with uniform density of 32.0 nC/m lies along the line y = -15.0 cm, between the points with coordinates x = 0 and x = 48.0 cm. Find the electric field it creates at the origin. Magnitude N/C Direction ° (counterclockwise from the +x axis)
A uniform linear charge distribution of p, charge density lies at x = -b.-b <y <b z=0. a) (3 points) Find the general expression for electric potential, V, at any point on positive x-axis. b) (2 points) Using the result on part a, find the expression for electric field intensity, Ē, at any point on positive x-axis.