2) Draw the electric field line diagram for a 2 micro C charge near a -4...

QUESTION: Assign four different electric fields to draw. Field near a positive charge Field near a...

QUESTION: Assign four different electric fields to draw. Field near a positive charge Field near a negative charge Field near a positive and a negative charge Field between two oppositely charged parallel plates CONDITIONS: No variable values need to be given Assign values for q (+2 uC) and for E (1200 N/C). Assign a value to r (2.5 m) Assign a value to q (–6 nC) No variable values need to be given Assign values to q: A and B...

An infinite line charge of uniform linear charge density lambda = -3.1 mu or micro CC/m...

An infinite line charge of uniform linear charge density lambda = -3.1 mu or micro CC/m lies parallel to the y axis at x = 0 m. A point charge of 0.6 mu or micro CC is located at x = 2.0 m, y = 3.0 m. Find the x component of the electric field at x = 3.0 m, y = 2.5 m. Answer in kN/C

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...

A. Calculate the magnitude and direction of the electric field point at Z in the diagram...

A. Calculate the magnitude and direction of the electric field point at Z in the diagram below q1=2.0*10^-5C. q2=8.0*10^-6C - <-----60cm------------> + <------30cm-----> X. Y Z B. A small test charge of +1.0 uC experiences an electric force of 6.0810^-6 N to the right. 1. Determine the electric field strength at that point. 2. Calculate the force that would be exerted on a charge of -7.2*10^-4 C located at the same point, in place of the   test charge C. A...

A charge is placed at x = 0 meters and another charge of 5 micro-coulombs is...

A charge is placed at x = 0 meters and another charge of 5 micro-coulombs is placed at x = +4.4 m (both on the x axis). The total electric field produced by these two charges is zero at x = +2.1 meters. Then the charge at x = 0 m, switches sign but its magnitude is not changed. Where on the x axis (x = ____ m), is the total electric field equal to zero now? Answer in meters.

1.The electric field at a distance of 2 mm from a test charge is _____the field...

1.The electric field at a distance of 2 mm from a test charge is _____the field at a distance of 4 mm a. The same as b twice as strong as c four times as strong as d 1/4 as strong as e have as strong ass 2. an electrical field contains two charges ANB. If the charges are doubled to be to a N to be, what would happen to the force on charge a? a The same as...

Do charges released from rest always move along electric field lines; i.e., does the charge stay...

Do charges released from rest always move along electric field lines; i.e., does the charge stay on the E field line at which it started? b) Based on your answer to a), would charges released with an initial velocity always move along electric field lines? c) Using kinematic quantities like position, velocity, and acceleration as well as the concept of a force to describe the general character of the motion of a [+] charge in motion near a single [+]...

  The earth (a conductor) has a net electric charge. The resulting electric field near the surface...

  The earth (a conductor) has a net electric charge. The resulting electric field near the surface has an average   value of about 150N/C, directed toward the center of earth.   A- What is the corresponding charge density? B- What is the total surface charge of the earth. (ε0=8,85x10-12 MKS)   Two proton are seperated by a distance 10-15m. A-What is the ratio of electric and gravitational force between them.   B- When they are released, calculate their acceleration.   (Charge of proton: 1,6x10-19 C...

6-With a labelled sketch, illustrate the electric field and equipotential lines about a point charge. [2...

6-With a labelled sketch, illustrate the electric field and equipotential lines about a point charge. [2 marks] (b) A dipole, as illustrated in the following figure, consists of two charges of charge magnitude, q separated by a distance, d. Point P is separated from the dipole center by a distance, r along the x-axis. For this: i) sketch and label the electric field vector contributions at P due to the two point charges and the resultant net field vector at...

1.Draw the equipotential lines for a single, positive, charge. 2. How can you tell from an...

1.Draw the equipotential lines for a single, positive, charge. 2. How can you tell from an electric field map whether an electric field is strong or weak? 3. What would the electric field lines look like if the electric field was constant? 4. Can there be a point in space where there is an electric potential but not electric field? Can there be a point in space where there is an electric field but no electric potential? Explain you answer.