An infinite line of positive charge lies along the y axis, with charge density λ =...

A charge per unit length λ = +6.00 μC/m is uniformly distributed along the positive y-axis...

A charge per unit length λ = +6.00 μC/m is uniformly distributed along the positive y-axis from y = 0 to y = +a = +0.500 m. A charge per unit length λ = -6.00 μC/m, is uniformly distributed along the negative y-axis from y = 0 to y = –a = -0.500 m. What is the magnitude of the electric field at a point on the x-axis a distance x = 0.551 m from the origin?

An infinite line of charge with charge density λ1 = 1.4 μC/cm is aligned with the...

An infinite line of charge with charge density λ1 = 1.4 μC/cm is aligned with the y-axis as shown. 1)What is Ex(P), the value of the x-component of the electric field produced by by the line of charge at point P which is located at (x,y) = (a,0), where a = 8.2 cm? 2)What is Ey(P), the value of the y-component of the electric field produced by by the line of charge at point P which is located at (x,y)...

An infinite line of charge with linear density λ1 = 7.9 μC/m is positioned along the...

An infinite line of charge with linear density λ1 = 7.9 μC/m is positioned along the axis of a thick insulating shell of inner radius a = 2.6 cm and outer radius b = 4.5 cm. The insulating shell is uniformly charged with a volume density of ρ = -658 μC/m3. 1) What is λ2, the linear charge density of the insulating shell?

A rod of length 2l lies on the x-axis from x = −l to x =...

A rod of length 2l lies on the x-axis from x = −l to x = +l. The left half of the rod carries uniform negative charge density −λ while the right half carries a uniform positive charge density +λ. (a) What is the net charge of each half of the rod? What is the total charge of the entire rod? (b) Determine an exact expression for the magnitude of the electric field at an arbitrary point along the x-axis...

An infinitely long line charge of uniform linear charge density λ = -2.10 µC/m lies parallel...

An infinitely long line charge of uniform linear charge density λ = -2.10 µC/m lies parallel to the y axis at x = -3.00 m. A point charge of 2.40 µC is located at x = 2.00 m, y = 3.00 m. Find the electric field at x = 3.00 m, y = 2.50 m.

A thin, non conducting rod with length L lies along the positive X-Axis with one end...

A thin, non conducting rod with length L lies along the positive X-Axis with one end at the origin. The rod carries a charge distributed along its length of λ(x) = bx/L. Determine the electric potential along the X-Axis at the point x = 2 cm if L = 1 cm and b = 50 pC/m. Answer = (0.17 V)

A rod of length 10 meters and charge .6 μC lies along the x-axis from (-5,...

A rod of length 10 meters and charge .6 μC lies along the x-axis from (-5, 0) to (5, 0) meters. A charge of .4 μC is placed at (0, 3) meters. a) Find the electric potential energy of the system if the rod has a uniform charge density. b) Find the energy if the rod has a linear charge density given by λ = kx2. c) Find the answer to (a) and (b) if the .4 μC charge was...

Three charges line along the x-axis. The positive charge q1 = 15x10-6 C is at x=2.0m...

Three charges line along the x-axis. The positive charge q1 = 15x10-6 C is at x=2.0m and the positive change qs= 6.0uC is at the origin. Where must the negative charge q3 be placed on the x-axis so that the resultant electric force on it is zero? Round to 2 significant figures.

An electric dipole lies on the x-axis containing a charge of -2.5 nC at x =...

An electric dipole lies on the x-axis containing a charge of -2.5 nC at x = -10.0 cm, and a +2.5 nC charge at x =+10.0 cm. Find the electric field 1 on the x-axis at the point (20.0 cm, 0) 2 on the y-axis at the point (0, 10.0 cm) In the model of the hydrogen atom, the proton,(+e) and electron, (-e) (having charge =±e =±1.6X10^−19C) are separated by 5.29x10^-11m. Calculate the electric potential energy of this atom. Suppose...

You have a line charge that lies along the x axis from x = - 13.0...

You have a line charge that lies along the x axis from x = - 13.0 cm to x = +11.2 cm, and you want to find the electric potential on the y-axis at x = 0, y = 6.43 cm. The line charge density as a function of x is given by ?(x)    =   277 ?C/m      x0.242 m where x must be in m. Part (a) Draw a diagram of your version of the problem, and use it...