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

Lab 20: Electric Field and Potential Pre Lab Questions (Part 2) 6. How can you tell...

Lab 20: Electric Field and Potential Pre Lab Questions (Part 2) 6. How can you tell from an electric field map whether an electric field is strong or weak? 7. What would the electric field lines look like if the electric field was constant? 8. 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...

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.

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...

Did any of your field lines cross? Should they? Why, or why not? None of the...

Did any of your field lines cross? Should they? Why, or why not? None of the field lines crossed, nor should they. They are a line of constant potential and the equipotential can have only one value at a given point in space. If the electric field lines were to intersect, they would render a location with two different strong electric field vectors and so would not accurately represent equipotential lines. Did any of your equipotential surfaces cross? Should they?...

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)?

1. Why can electric fields not cross each other? A. Many electric field lines can exist...

1. Why can electric fields not cross each other? A. Many electric field lines can exist at any given point in space. B. No electric field lines can exist at any given point in space. C. Only a single electric field line can exist at any given point in space. D. Two electric field lines can exist at the same point in space. 2. By considering the molecules of an insulator, explain how an insulator can be overall neutral but...

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). Fill in the data table for a single positive Charge. r (m) Electric Potential (...

1). Fill in the data table for a single positive Charge. r (m) Electric Potential ( V) Electric Field ( V/m) 2). Determine the voltage ( V) vs. distance (r) relationship for a point charge.

Drag a negative charge onto the grid and use the tape measure to place this charge...

Drag a negative charge onto the grid and use the tape measure to place this charge 0.5 m directly to the right of the positive charge. Drag a Voltmeter back onto the grid. Use the tape measure and the sensor to measure the electric potential at a distance of 0.5 m directly above the negative charge. Record below. V=___5.760V______           Use what we’ve learned in class to calculate the electric potential at this location. Show all work below. ( 1nC =...

1. If you doubled the amount of charge on each electrode for the point-point configuration, what...

1. If you doubled the amount of charge on each electrode for the point-point configuration, what changes would take place in the electric field lines? What changes would take place in the equipotential lines? Explain the reasoning behind your answers. 2. Imagine an electron in the conducting paper that moves on a straight line from the negative to the positive electrode. Compare the work done on the electron for each set of electrodes you used during Part One of the...