Find the electric field due the square made of 4 rods of length L= 10cm and charge of Q=2nC each, point P at distance D=7 cm above the center of the square.
Find the electric field due the square made of 4 rods of length L= 10cm and...
find the electric field due the square made of 4 rods of length L=10cm and charge Q=2nC each, point P, at distance D=7cm above the center of the square.
Does the question 5 correct? Thanks. Assignment 1: ELECTRICITY CONT. 5. Find the electric field due the square made of 4 rods of length L= 10cm and charge of Q-2nC each, point P at distance 7 cm above the center of the square. -1-5万.cof 入. 6 Uniformiy charged rod (q-62nC) of length 31cm is bend into the shape of a circular hoop of Sem rad It is done in such a way that there is no charge lost. As result...
A.) charge +Q is distributed uniformly along a straight line of length L. Find the Electric field at a point P along the direction of the line a distance d from it. Calculate the electric field strength if Q = + 6 μC , L= 0.10m and d = 0.05m. B.) With the same charge distribution, calculate the electric field strength at a point a distance d = 0.05m above or below the mid-point of the charged line.
4. Consider two thin charged rods of length L carrying uniformity distributed charges of +q and -q positioned end-to-end as shown in the figure below. (a) Calculate the electric field at point P a distance x to right of where the rods meet. (b) Show that the approximate expression for the electric field at point P for x >>L looks like that of a dipole (Hint: Review Example 21.14 in your text). (o) what is the dipole moment of the...
Two uniformly charges rods (each with a total charge Q 7.5 HC and length L. - 12.0 em) are arranged as shown below. Find the electric field at P if a -5.5 cm. s. .75
Electric field: An equilateral triangle is formed from three rods, each of length 10 cm. Two of the rods carry charge +16 nC uniformly distributed along the length of each rod, while the third carries charge -16 nC, also uniformly distributed along the rod. What is the magnitude of the electric field at the center of the triangle?
When we find the electric field due to a continuous charge distribution, we imagine slicing that source up into small pieces, finding the electric field produced by the pieces, and then integrating to find the electric field. Let's see what happens if we break a finite rod up into a small number of finite partides. The figure below shows a rod of length 2 carrying a uniform charge Q modeled as five particles of charge Q/5. Two particles are at...
4. Consider two thin charged rods of length L carrying uniformity distributed charges of +q and -q positioned end-to-end as shown in the figure below. (a) Calculate the electric field at point P, a distance x to right of where the rods meet. (b) Show that the approximate expression for the electric field at point P for x >> L looks like that of a dipole (Hint: Review Example 21.14 in your text). (c) What is the dipole moment of...
Find the electric field due to a disk at point X, L distance away. Integrate using a ring of charge r distance away from the center. R - Radius - Charge/unit area
4. Consider two thin charged rods of length L carrying uniformity distributed charges of +q and q positioned end-to-end as shown in the figure below. (a) Calculate the electric field at point P, a distance x to right of where the rods meet. (b) Show that the approximate expression for the electric field at point Pforx >> L looks like that of a dipole (Hint: Review Example 21.14 in your text). (c) What is the dipole moment of the charge...