Part 1:
If the angle the displacement makes with the electric field is 90 degrees it means the charge is moving across (or perpendicular to) the field vectors. Is work being done and what is doing the work? Will it be maximum, minimum, or zero? Explain your answer with a diagram.
Part 2:
If the angle the displacement makes with the electric field is 0 degrees it means the charge is moving along (or parallel to) the field vectors. Is work being done? How will the angle here affect the work done, explain your answer with a diagram?
Part 1: If the angle the displacement makes with the electric field is 90 degrees it...
17% Part (1) Calculate the angle in degrees of the electric field at point Prelative to the positive x-axis. = ( 7 9 7T E 4 sino cos tan cotan asino acos atano acotan sinh cosho tanh cotanh Degrees Radians 8 5 2 6 1 3 0 VON BACKSPACE | Help Quizl Begin Date: 6/29/2020 12:01:00 AM - Due Date: 7/5/2020 11:59.00 PM End Date: 7/5/2020 11:59:00 PM (13%) Problem 7: A positive charge of magnitude Q, = 0.55 nC...
2) Explain why the equipotential surfaces should be always perpendicular to the electric field lines? 3) A uniform electric field is parallel to the y-axis. What direction can a charge be displaced in this field without any external work being done on the charge?
1) Do the electric field lines cross? Can two equipotential 2) Explain why the equipotential surfaces should be always 3) A uniform electric field is parallel to the y-axis. What lines ever cross? Explain. perpendicular to the electric field lines? direction can a charge be displaced in this field without any external work being done on the charge?
At some point, an electric field is directed at an angle of 210 degrees measured counter-clockwise from the +x axis. If a negative charge is placed at that point, what is the angle of the electric force on the charge measured counter-clockwise from the +x axis in degrees? please show your work
Can you please check my work and explain everything, I'm a little unsure Map the Electric Field Created by Differently Shaped Electric Plates What is the voltage (change in electric potential) between the two terminals in your experiment? How much work is done in transferring a unit of charge (an electron) from one terminal to the other in this experiment? Does the geometry of the terminals affect the shape of the equipotential lines? Explain why or why not. Yes, because...
In this problem, you will be asked to use the given diagram(Figure 1) to calculate the work done by the electric field E? on a particle of charge q and see for yourself whether that work appears to be trajectory-independent. Recall that the force acting on a charged particle in an electric field is given by F? =E? q. Recall that the work W done on an object by a constant force is W=Fdcos?, where F is the magnitude of the...
A uniform electric field of magnitude 2.20 times 10^4 N/C makes an angle of 47 degrees with a plane surface of area 1.63x10^-2 m^2 What is the electric fiux through this surface?
A gray conductor shown in Figure 7-8 is charged, and generates an electric field corresponding to the following equipotential lines: VA-3.0 V and Va-1.0v a. On this diagram, sketch some of the electric field lines resulting from the charge distribution. Is the charge distribution positive or negative? (Yes you have enough information to tell.) The chorg dastribwbon is b. Where is the electric field strongest? Explain. C. How much work would it take to move a Q = 0.50 C...
Please answer A through D Work done can also be determined by considering movement across equipotentials. This can be written as: Vn is the electric potential at point P This tells us that the work done by you is dependent only on the magnitude and type (+ or -) of the electric charge you are trying to move, and the difference in electric potential from the ending point to the starting point. Both of these equations could yield positive or...
1- For a uniform electric field, how is the electric potential energy similar to the gravitational potential energy in a uniform gravitational? 2-If a positive charge and a negative charge moving the same way in an electric field have the same change in electric potential energy? 3-For a positive charge moving in an electric field, which direction of motion will cause the electric potential energy to increase? Decrease? Stay constant? 4-How would the answers to the previous question be different...