Homework Answers
As we know relation between electir potential and electric field intensity.
Direction of E is opposite to cvange in potential.
So we are coming down at B potential is increasing.
So direction of electric fielf is upwards.
Towards the top of the page.
First option is correct.
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QUESTION 7 5 points Save AR The figure shows a collection of equipotential lines. What is...
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...
Equipotential Lines The lines in the figure below show the equipotential contours in the plane of...
Equipotential Lines The lines in the figure below show the equipotential contours in the plane of three point charges, Q1, Q2, and Q3. Note that these are point charges (one is not bigger in size than the others; they're points). That means that the potential goes to infinity as you approach them. We've cut off the contours at plus and minus 7kV. The white space is where the potential is greater or less than that. The values of the equipotential...
Moving to another question will save this response Question 7 A proton is released such that...
Moving to another question will save this response Question 7 A proton is released such that its initial velocity is from right to left across this page. The proton's path, however, presence of a uniform magnetic field. What is the direction of this field? 2 pts teed vertically downward no into the page out of the page from right to left across the page from bottom edge to top edge of the page
The two wires shown in the figure below are separated by d = 12.1 cm and...
The two wires shown in the figure below are separated by
d = 12.1 cm and carry currents of I = 4.95 A in
opposite directions.
(a) Find the magnitude and direction of the net magnetic field
at a point midway between the wires.
________________ µT
Choose direction _____________ a)into the page, out of the page,
b)toward the top of the page, c)toward the bottom of the page,
d)toward the left side of the page, e)toward the right side of...
The figure shows the equipotential lines created by a distribution of source charges (not pictured here)...
The figure shows the equipotential lines created by a
distribution of source charges (not pictured here) along with five
locations in space (a-e). (a) At each of the points indicated, draw
the electric field vector (magnitude and direction). (b) An ion is
placed, initially at rest at point c and allowed to move solely due
to the electric force. At a later time, the ion is at point b. Is
the ion positively or negatively charged? What is that ion’s...
Four electric currents, equal in magnitude are arranged at the corners of a square as shown...
Four electric currents, equal in magnitude are arranged at the corners of a square as shown in the figure. b a Two currents go into the page, and two are pointing out of the page. Point a is at the center of the square, and points b and c are in the middle of two of the sides. What is the direction of the magnetic field at point a? To the left. To the right. Down (to the bottom of...
(Figure 1) shows a region of space with an electric field. Vertical lines indicate equipotential surfaces....
(Figure 1) shows a region of space with an electric field.
Vertical lines indicate equipotential surfaces. A particle with
charge q = -4.8 nC is initially at the location of the -20-V
equipotential line. At time t = 0 the particle is released from
rest. Ignore the force exerted by Earth on the particle.
Part A: Estimate the magnitude of force exerted by the electric
field on the particle when it passes the 0-V equipotential
line.
Part B: Estimate the...
Electric Field Lines and Potential The figure shows the E-field in the plane of two point...
Electric Field Lines and Potential The figure shows the E-field in the plane of two point charges. Determine for each of the following statements whether it is correct or incorrect. 2 Incorrect The electric potential (volts) is larger at 'c' than 'e'. Incorrect The net charge Q1+Q2 is negative. Correct The E-field at 'b' points north. Incorrect The E-field at 'c is zero. Correct The E-field at 'b' points directly toward Q2. Incorrect The magnitude of the E-field at 'a'...
Question 1 (10 points). (a) Determine the direction of the force on the moving charges described ...
practice exam help. will upvote
Question 1 (10 points). (a) Determine the direction of the force on the moving charges described below Magnetic field into paper, positive charge moving to the right Magnetic field and velocity vectors as shown with the charge being negative xxx부x (b) An electron moves in the platnve of this paper toward the top of the page. A magnetic field is also in the plane of the page and directed toward the right. The direction of...
how is the drawing suppose to be like? 3. (4 points) The diagram below shows the equipotential lines around a cluster of positive charge, Q. Draw electric field lines to show the force that a posi...
how is the drawing suppose to be like?
3. (4 points) The diagram below shows the equipotential lines around a cluster of positive charge, Q. Draw electric field lines to show the force that a positivetest charge will experience if placed at points A and S B. Assume that point B is 3x farther from the charge than point A. 98 lenger than at B
3. (4 points) The diagram below shows the equipotential lines around a cluster of positive...
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...
Equipotential Lines The lines in the figure below show the equipotential contours in the plane of three point charges, Q1, Q2, and Q3. Note that these are point charges (one is not bigger in size than the others; they're points). That means that the potential goes to infinity as you approach them. We've cut off the contours at plus and minus 7kV. The white space is where the potential is greater or less than that. The values of the equipotential...
Moving to another question will save this response Question 7 A proton is released such that its initial velocity is from right to left across this page. The proton's path, however, presence of a uniform magnetic field. What is the direction of this field? 2 pts teed vertically downward no into the page out of the page from right to left across the page from bottom edge to top edge of the page
The two wires shown in the figure below are separated by
d = 12.1 cm and carry currents of I = 4.95 A in
opposite directions.
(a) Find the magnitude and direction of the net magnetic field
at a point midway between the wires.
________________ µT
Choose direction _____________ a)into the page, out of the page,
b)toward the top of the page, c)toward the bottom of the page,
d)toward the left side of the page, e)toward the right side of...
The figure shows the equipotential lines created by a
distribution of source charges (not pictured here) along with five
locations in space (a-e). (a) At each of the points indicated, draw
the electric field vector (magnitude and direction). (b) An ion is
placed, initially at rest at point c and allowed to move solely due
to the electric force. At a later time, the ion is at point b. Is
the ion positively or negatively charged? What is that ion’s...
Four electric currents, equal in magnitude are arranged at the corners of a square as shown in the figure. b a Two currents go into the page, and two are pointing out of the page. Point a is at the center of the square, and points b and c are in the middle of two of the sides. What is the direction of the magnetic field at point a? To the left. To the right. Down (to the bottom of...
(Figure 1) shows a region of space with an electric field.
Vertical lines indicate equipotential surfaces. A particle with
charge q = -4.8 nC is initially at the location of the -20-V
equipotential line. At time t = 0 the particle is released from
rest. Ignore the force exerted by Earth on the particle.
Part A: Estimate the magnitude of force exerted by the electric
field on the particle when it passes the 0-V equipotential
line.
Part B: Estimate the...
Electric Field Lines and Potential The figure shows the E-field in the plane of two point charges. Determine for each of the following statements whether it is correct or incorrect. 2 Incorrect The electric potential (volts) is larger at 'c' than 'e'. Incorrect The net charge Q1+Q2 is negative. Correct The E-field at 'b' points north. Incorrect The E-field at 'c is zero. Correct The E-field at 'b' points directly toward Q2. Incorrect The magnitude of the E-field at 'a'...
practice exam help. will upvote
Question 1 (10 points). (a) Determine the direction of the force on the moving charges described below Magnetic field into paper, positive charge moving to the right Magnetic field and velocity vectors as shown with the charge being negative xxx부x (b) An electron moves in the platnve of this paper toward the top of the page. A magnetic field is also in the plane of the page and directed toward the right. The direction of...
how is the drawing suppose to be like?
3. (4 points) The diagram below shows the equipotential lines around a cluster of positive charge, Q. Draw electric field lines to show the force that a positivetest charge will experience if placed at points A and S B. Assume that point B is 3x farther from the charge than point A. 98 lenger than at B
3. (4 points) The diagram below shows the equipotential lines around a cluster of positive...
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