![The variation of the electric potential with position along the x-axis is shown in the figure below. true about the this plot? Which of the following statements is 100 80 60 40 20 0 2 3 45 6789 10 Position [meters]](http://img.homeworklib.com/questions/70122140-44ec-11ea-8086-43601e5105b9.png?x-oss-process=image/resize,w_560)
Homework Answers
c)
Electric potential = V
Derivative of electric potential with respect to x gives electric
field,
dV/dx = E
at x = 4 m, the slope of the line = (60V-20V)/(5m-3m) = 20 V/m
(Answer)
Add Answer to:
The variation of the electric potential with position along the x-axis is shown in the figure...
Part c) Determine the magnitude of the electric field at the position x = 4 m....
Part c) Determine the magnitude
of the electric field at the position x = 4 m.
________ V/m
(#565675) Electric Field from Potential) An electric field of varying magnitude is directed in the positive x-direction throughout a region of space. The field magnitude varies only along the x-direction. Part a Which of the following statements is true about the relationship between the electric field and the voltage in this region of space. Select the correct answer O The voltage is...
Please just do part C. Thanks! du Question 12 This question contains multiple parts. Make sure...
Please just do part C.
Thanks!
du Question 12 This question contains multiple parts. Make sure to read all the instructions and answer each part A electric field of varying magnitude is directed in the positive x-direction throughout a region of space. The field magnitude varies only along the x-direction. Part a Which of the following statements is true about the relationship between the electric field and the voltage in this region of space. Select the correct answer Theelectric field...
4. Charges on x-axis produce an electric potential V(x) = 450x2 along the x-axis, where x...
4. Charges on x-axis produce an electric potential V(x) = 450x2 along the x-axis, where x is in meters and V is in volts. A particle of charge q 60 nC and mass m = - 1.5 g moves in this potential with turning points at +8.0 cm. (a) What is the total energy of the particle in this potential? (b) What is the speed of the particle at x = 3.0 cm? (c) What is the magnitude and direction...
The figure below shows a plot of an electric potential as a function of distance along...
The figure below shows a plot of an electric potential as a function of distance along the z-axis. From this information, determine the e-component of the electric field at each of the following displacements. 60 2 50 40 30 20 10 0 x (m) (a)0.50 m Number Units (b) 1.50 m Number Units
1. Find the electric field (in vacuum) as a function of position z along the axis...
1. Find the electric field (in vacuum) as a function of position z along the axis of a uniformly charged disk of outer radius R with a hole of radius R in its centre. The charge per unit area on the disk is σ. 2, A straight rod, with uniform charge λ per unit length, lies along the z axis from z=11 to z=12-(Thus, the length of the rod is l2-11.) Find the x and y components of the electric...
Two charges are located on the x axis as shown in the figure, d # 1.18...
Two charges are located on the x axis as shown in the figure, d # 1.18 cm, qǐ +1 1.1 μC. and 92 What charge gs needs to be placed at position 3d so that the magnitude of the electric field at the origin is zero? =-18.3 μC. ors 41 92 Enter answer here 0 of 10 attempts used CHECK ANSWER
Three point charges are aligned along the x axis as shown in the figure below. Find the electric...
Three point charges are aligned along the x-axis as shown in the figure below. Find the electric field at the position x = +2.4 m, y = 0.
The drawing shows the electric potential as a function of distance along the x axis. Determine...
The drawing shows the electric potential as a function of distance along the x axis. Determine the magnitude of the electric field in the region (a) A to B. (b) Blo , and (c) 'o V. Potential, V 0 0.20 0.60 0.80 0.40 X, m (a) Number Units (b) Number Units . (c) Number Units
The drawing shows the electric potential as a function of distance along the x axis. Determine...
The drawing shows the electric potential as a function of distance along the x axis. Determine the magnitude of the electric field in the following regions 50A 30 2.0 1.0 0.20 040 0.60 080 (a) A to B V/m (b) B to C V/m (c) C to D V/m
The drawing shows the electric potential as a function of distance along the x axis. Determine...
The drawing shows the electric potential as a function of
distance along the x axis. Determine the magnitude of the electric
field in the following regions.
5.0 4.0 3.0 2.0 0.20 0.40 (a) A to B V/m (b) B to C V/m (c) C to D V/m 0.60 0.80
Part c) Determine the magnitude
of the electric field at the position x = 4 m.
________ V/m
(#565675) Electric Field from Potential) An electric field of varying magnitude is directed in the positive x-direction throughout a region of space. The field magnitude varies only along the x-direction. Part a Which of the following statements is true about the relationship between the electric field and the voltage in this region of space. Select the correct answer O The voltage is...
Please just do part C.
Thanks!
du Question 12 This question contains multiple parts. Make sure to read all the instructions and answer each part A electric field of varying magnitude is directed in the positive x-direction throughout a region of space. The field magnitude varies only along the x-direction. Part a Which of the following statements is true about the relationship between the electric field and the voltage in this region of space. Select the correct answer Theelectric field...
4. Charges on x-axis produce an electric potential V(x) = 450x2 along the x-axis, where x is in meters and V is in volts. A particle of charge q 60 nC and mass m = - 1.5 g moves in this potential with turning points at +8.0 cm. (a) What is the total energy of the particle in this potential? (b) What is the speed of the particle at x = 3.0 cm? (c) What is the magnitude and direction...
The figure below shows a plot of an electric potential as a function of distance along the z-axis. From this information, determine the e-component of the electric field at each of the following displacements. 60 2 50 40 30 20 10 0 x (m) (a)0.50 m Number Units (b) 1.50 m Number Units
1. Find the electric field (in vacuum) as a function of position z along the axis of a uniformly charged disk of outer radius R with a hole of radius R in its centre. The charge per unit area on the disk is σ. 2, A straight rod, with uniform charge λ per unit length, lies along the z axis from z=11 to z=12-(Thus, the length of the rod is l2-11.) Find the x and y components of the electric...
Two charges are located on the x axis as shown in the figure, d # 1.18 cm, qǐ +1 1.1 μC. and 92 What charge gs needs to be placed at position 3d so that the magnitude of the electric field at the origin is zero? =-18.3 μC. ors 41 92 Enter answer here 0 of 10 attempts used CHECK ANSWER
The drawing shows the electric potential as a function of distance along the x axis. Determine the magnitude of the electric field in the region (a) A to B. (b) Blo , and (c) 'o V. Potential, V 0 0.20 0.60 0.80 0.40 X, m (a) Number Units (b) Number Units . (c) Number Units
The drawing shows the electric potential as a function of distance along the x axis. Determine the magnitude of the electric field in the following regions 50A 30 2.0 1.0 0.20 040 0.60 080 (a) A to B V/m (b) B to C V/m (c) C to D V/m
The drawing shows the electric potential as a function of
distance along the x axis. Determine the magnitude of the electric
field in the following regions.
5.0 4.0 3.0 2.0 0.20 0.40 (a) A to B V/m (b) B to C V/m (c) C to D V/m 0.60 0.80
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