Briefly describe how the electric field behaves, for the equipotential line close to the positive charge,...

What angle do electric field lines make with the surface of a charge? At what angle...

What angle do electric field lines make with the surface of a charge? At what angle do electric field lines cross the equipotential lines? 3. As you follow the direction of the electric field, does electric potential increase or decrease? Is it the same for both positive and negative charges? 4.  Very near a charge or charge grouping, how are the equipotential lines oriented relative to the surface of the charge(s)?

Describe how you will plot the equipotential lines. Describe how would you draw the electric field...

Describe how you will plot the equipotential lines. Describe how would you draw the electric field map once you have the equipotential lines.

How much work is required to move a small charge along an equipotential line? Why is...

How much work is required to move a small charge along an equipotential line? Why is the strength of the electric field (E) zero along an equipotential line?

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...

Suppose that a positive test charge q0 moves through a displacement d s→from one equipotential surface...

Suppose that a positive test charge q0 moves through a displacement d s→from one equipotential surface to the adjacent surface. The work the electric field does on the test charge during the move is –q0dV. The work done by the electric field may also be written as the scalar product (q0E→)·d s→, or q0E(cos θ) ds. It's a general question what if the test charge is negative? what happens to the displacement and work?

This is from an lab dealing with electric feild and equipotential lines. 1.If the electric potential...

This is from an lab dealing with electric feild and equipotential lines. 1.If the electric potential between two points is zero, what does that mean in terms of the electric field in terms of the test charge? 2. Is the electric field a vector a scalar field? Explain 3. Why must equipotential lines be perpendicular to electric field lines? 4. How much work is required to move a small test charge along an equipotential line? 5. Find the electric field...

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.

An unknown positive charge produces an electric field with a magnitude of 0.005 N/C. If the...

An unknown positive charge produces an electric field with a magnitude of 0.005 N/C. If the unknown charge is made negative, how does the electric field change? An negative test charge is placed next to each charge. What will happen to the test charge in each case. Why?

Which of the following is a correct statement? (1 point) The direction of the electric field...

Which of the following is a correct statement? (1 point) The direction of the electric field due to a negative point charge is directed away from the charge. The direction of the electric force on a positive charge is opposite to the direction of the electric field at its location. The magnitude of the electric field due to a point charge is inversely proportional to the square of the distance between the charge and the point. The unit of measurement...

Is more work, less work, or the same amount of work needed to move a positive...

Is more work, less work, or the same amount of work needed to move a positive test charge from infinity to an equipotential contour that is 0.1 m from the charge in figure 2 compared to the work needed to move the test charge to a position 0.2 m away? How much work is needed to move a charge from one position to another that is on the same equipotential contour? Sketch electric field lines and at least three equipotential...