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1. Is it possible for two different equipotential lines to cross each other? Explain why or...
1) Do the electric field lines cross? Can two equipotential 2) Explain why the equipotential surfaces...
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?
Questions: 1) Is it possible for two different equipotential lines or two lines of forces to...
Questions: 1) Is it possible for two different equipotential lines or two lines of forces to cross each other? Explain. 2) How does the electric field strength vary with the distance from an isolated charged particle? is the electric field most nearly uniform in the two opposite point charges
(c) How are the Electric Field lines related to the equipotential lines? How do they cross...
(c) How are the Electric Field lines related to the equipotential lines? How do they cross each other? What does Eq. 11.2 indicate? Use a sketch to illustrate the relation of the Electric Field lines to the equipotential lines. (d) The Electric Field gives the direction in which a positive test charge would move from a given point in space. Explain why different lines of force can never cross each other.
Two parallel plates Equipotential Lines represent for us on a graph the same thing Elevation Line...
Two parallel plates
Equipotential Lines represent for us on a graph the same thing
Elevation Lines do for us on a map: They represent a line where the
Electric or Gravitational potential is a constant. Maps and voltage
graphs have even spacing between values (1V or 500ft or 100m etc)so
they can be read easier. These potentials were at 3V, 6V, 9V, 12V,
and 15V. In the figure are 5 lines of electric potential drawn from
positive charge at left...
Equipotential Lines and Fields Questions a. What does the spacing of equipotential lines tell you about...
Equipotential Lines and Fields Questions a. What does the spacing of equipotential lines tell you about the electric potential in different regions of space? b. Do equipotential lines have a beginning and/or an end? If so, where? c. Do equipotential lines have a direction? d. How should the electric FIELD lines connect/relate to the equipotential lines? e. What does the spacing of the electric field lines tell you about the electric field in different regions of space? f. Do electric...
What does the spacing of equipotential lines tell you about the electric potential in different regions...
What does the spacing of equipotential lines tell you about the electric potential in different regions of space? Do equipotential lines have a beginning and/or an end? If so, where? Do equipotential lines have a direction? How should the electric FIELD lines connect/relate to the equipotential lines? What does the spacing of the electric field lines tell you about the electric field in different regions of space? Do electric field lines have a beginning and/or an end? If so, where?...
2) Explain why the equipotential surfaces should be always perpendicular to the electric field lines? 3)...
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?
Equipotentials answer the following questions about equipotential lines. 4 points total. 1. Explain what equipotential lines...
Equipotentials answer the following questions about equipotential lines. 4 points total. 1. Explain what equipotential lines are. In particular, explain how they relate to electric field lines (geo- metrically) and how they relate to potential energy. 2 points. 2. Below are lines of equipotential for a charge distribution. Draw the electric field lines associated with the equipotentials. Draw a guess for the shape of the charge distribution. Explain in words the important points that you were trying to show through...
Please look at my answer and make corrections. It is not possible to have an electric...
Please look at my answer and make corrections. It is not possible to have an electric field line be a closed loop. Explain why this is true using potential and/or equipotential lines. Hints: The focus should not be on talking about charge distributions. My answer: Because the force of electric fields is conservative, the change in potential energy from arbitrary points A to B should be the same magnitude as B to A regardless of the path taken. A closed...
uestions for electric field experiment i) Info and draw on in it three more equipotential lines:...
uestions for electric field experiment i) Info and draw on in it three more equipotential lines: one at the one slightly to the right of center and another slightly o 1. Use Fig. 5.6 center of the dipole, to the left of center sli Figure 5.6: The dashed lines are field lines for a dipole configuration. At each point it shows the direction that a positive probe-charge would follow if left alone there. The concentric lines around the poles are...
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?
Questions: 1) Is it possible for two different equipotential lines or two lines of forces to cross each other? Explain. 2) How does the electric field strength vary with the distance from an isolated charged particle? is the electric field most nearly uniform in the two opposite point charges
(c) How are the Electric Field lines related to the equipotential lines? How do they cross each other? What does Eq. 11.2 indicate? Use a sketch to illustrate the relation of the Electric Field lines to the equipotential lines. (d) The Electric Field gives the direction in which a positive test charge would move from a given point in space. Explain why different lines of force can never cross each other.
Two parallel plates
Equipotential Lines represent for us on a graph the same thing
Elevation Lines do for us on a map: They represent a line where the
Electric or Gravitational potential is a constant. Maps and voltage
graphs have even spacing between values (1V or 500ft or 100m etc)so
they can be read easier. These potentials were at 3V, 6V, 9V, 12V,
and 15V. In the figure are 5 lines of electric potential drawn from
positive charge at left...
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?
Equipotentials answer the following questions about equipotential lines. 4 points total. 1. Explain what equipotential lines are. In particular, explain how they relate to electric field lines (geo- metrically) and how they relate to potential energy. 2 points. 2. Below are lines of equipotential for a charge distribution. Draw the electric field lines associated with the equipotentials. Draw a guess for the shape of the charge distribution. Explain in words the important points that you were trying to show through...
uestions for electric field experiment i) Info and draw on in it three more equipotential lines: one at the one slightly to the right of center and another slightly o 1. Use Fig. 5.6 center of the dipole, to the left of center sli Figure 5.6: The dashed lines are field lines for a dipole configuration. At each point it shows the direction that a positive probe-charge would follow if left alone there. The concentric lines around the poles are...
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