let us suppose that a uniform, thin line of charge Q stretches from z=0 to z=L...

1.let us suppose that a uniform, thin line of charge Q stretches from z=0 to z=L...

1.let us suppose that a uniform, thin line of charge Q stretches from z=0 to z=L on theˆz-axis. This time calculate the electric field produced by the line at a point r=xˆx forx>0. This point is not equidistant from the two ends—does the electric field have both an x and a z component there? 2. A charge q is placed at the point r=xx^ for the electric field that you calculated in the previous problem. a. What is the force...

A line of uniform positive charge density +lambda extends from x=-L to x=+L as shown in...

A line of uniform positive charge density +lambda extends from x=-L to x=+L as shown in the figure below ( no pic ) its a solid bar from -L too +L , with y axis in the middle @ x=0 , and a point chrge @ x=D ( in the +x , past +L ) 1)What is the total charge in the line in terms of the variables defined in the problem? 2) Determine an expression for the electric field...

A straight line segment has a length L that carries a uniform line charge lambda which...

A straight line segment has a length L that carries a uniform line charge lambda which extends from z = 0 to z = L. A) Calculate the potential a distance z from the origin. Assume that z > L. B) Calculate the electric field from the potential. C) Show that the electric field from the line charge falls off essentially as a point charge (so 1/z^2) as z gets large and a charge of lambda*L in the z-direction using...

A thin rod of length l and uniform charge per unit length λ lies along the...

A thin rod of length l and uniform charge per unit length λ lies along the x axis as shown figure. (a) Show that the electric field at point P, a distance y from the rod, along the perpendicular bisector has no x component and is given by E=(2kλsinθ0)/y. (b) Using your result to (a), show that the field of a rod of infinite length is given by E=2kλ/y.

A line charge sits on the z-axis from z=0 to z=a. The charge density, lambda, varies...

A line charge sits on the z-axis from z=0 to z=a. The charge density, lambda, varies linearly with the expression: lambda=(lambda0/a)z. a, What is the electric potential, V, due to this line charge, everywhere on the x-axis? b, How much mechanical work is needed to move a charge Q from z=+infinite to the position on the x-axis at x=d?

1. A particle of positive charge q and mass m enters parallel uniform electric and magnetic...

1. A particle of positive charge q and mass m enters parallel uniform electric and magnetic fields (of magnitudes E and B, respectively) both directed in the +z direction with a velocity v = v0i perpendicular to both fields. (a) What is the the particle’s initial acceleration? You can give your answer as a vector in component form. (b) What is the radius of the particle’s path (looking down the z-axis) if the magnetic field is B = Bk? Does...

A thin insulating rod of length L has a charge Q spread uniformly along it. Point...

A thin insulating rod of length L has a charge Q spread uniformly along it. Point P is at a distance R from the middle point of the rod. What is the magnitude of the electric field, E, at point P?

1. A line of length L is the load Pe = po uniform line charge density...

1. A line of length L is the load Pe = po uniform line charge density bears and coincides with the z-axis. In the plane crossing the line load Determine the electric field strength. Note: Cylindrical coordinate system It will be used. Direct electric field strength without electric potential Will be determined.)

Two charges are on the z-axis, charge +q at z = +a and −q at z...

Two charges are on the z-axis, charge +q at z = +a and −q at z = −a. (Hint: This is NOT a continuous charge distribution but two discrete point charges.) (a) Find the electric potential V (x, y, z) at a field point r = (x, y, z). (b) Find the potential V (x, y, 0) at a point (x, y, 0) on the xy-plane. (c) What is the total electrostatic energy of this system? (d) Using the result...

Problem 10 A vertical line of charge starts at y = -a and ends at y...

Problem 10 A vertical line of charge starts at y = -a and ends at y = 0. A charge Q is uniformly distributed on this line. The point P1 is located at the coordinate (x, 0), where x is a positive number. (a) Draw a clear picture of the situation, including the point P1. Use this picture to help explain if there are any symmetries you can use to determine the electric field at point P1. (b) Find the...