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BULJLIUI J PUHILJ) Given an electric field that points upward. When a negative charge moves upward...
Given an electric field that points downward. When a negative charge moves upward in this field
Given an electric field that points downward. When a negative charge moves upward in this field
VERSIUN -B- nen a positive charge moves opposite to the direction of the electric field, A)...
VERSIUN -B- nen a positive charge moves opposite to the direction of the electric field, A) the field does positive work on it and the potential energy increases. B) the field does positive work on it and the potential energy decreases. C) the field does negative work on it and the potential energy increases. Motion D) the field does negative work on it and the potential energy decreases. 2) A strong lightning bort transfers about 40 C to Earth. How...
7) When a negative charge is released and moves along an electric field line, it moves...
7) When a negative charge is released and moves along an electric field line, it moves to a position of A) lower potential and lower potential energy. B) lower potential and higher potential energy. C) higher potential and lower potential energy. D) higher potential and higher potential energy
4- When a (h) charge freely moves in an electric field E: it will always move...
4- When a (h) charge freely moves in an electric field E: it will always move from a higher potential to a lower potential , (T/F)? If the charge is negative it will always move from the higher potential to the lower one (T/F)? 5-In an electric field pointing from West to East: a) A proton will move from b) An electron will move from to to 6- When a (+) sodium ion traverses the axon membrane from the negative...
Some unknown charge moves in a direction perpendicular to the direction of the electric field lines....
Some unknown charge moves in a direction perpendicular to the direction of the electric field lines. We can conclude that: It moves from a high potential to a low potential, and its electric energy increases. It moves from a low potential to a high potential, and its electric energy increases. It moves from a high potential to a low potential, and its electric energy decreases. Both its electric potential and electric potential energy stay constant. It moves from a low...
1) A proton (q= 1.6 X 10^-19 C) moves along a uniform E-field ( 3.0 v/m)...
1) A proton (q= 1.6 X 10^-19 C) moves along a uniform E-field ( 3.0 v/m) for a distance of 10 cm. what is the change in kinetic energy of the proton? a) 4.0 X 10^-19 J b) 8.6 X 10^-20 J c) 4.8 X 10^-20 J d) 1.6 X 10^-21 J 2) When a charged particle moves from a higher equipotential surface to a lower equipotential surface what is the nature of the work done by the electric field?...
A charge moves a distance of 1.8 cm in the direction of a uniform electric field...
A charge moves a distance of 1.8 cm in the direction of a uniform electric field having a magnitude of 249 N/C. The electrical potential energy of the charge decreases by 117.7 × 10−19 J as it moves. Find the magnitude of the charge on the moving particle. The electrical potential energy depends on the distance moved in the direction of the field. Answer in units of C.
When electron moves in the direction which is against direction of electric field lines we can...
When electron moves in the direction which is against direction of electric field lines we can conclude that: c. it moves from high potential to low potential and its electric energy increases. it moves from high potential to low potential and its electric energy decreases. e. both its electric potential and electric potential energy stay constant. it moves from low potential to high potential and its electric energy increases. it moves from low potential to high potential and its electric...
Chapter 17 Homework 1. If a negative charge is initially at rest in an electric field,...
Chapter 17 Homework 1. If a negative charge is initially at rest in an electric field, will it move toward a region of higher potential or lower potential? What about a positive charge? How does the potential energy of the charge change in each instance? Explain.
A uniform electric field of magnitude 4.1 105 N/C points in the positive x-direction. Find the...
A uniform electric field of magnitude 4.1 105 N/C points in the positive x-direction. Find the change in electric potential energy of a +5.1 µC charge as it moves fromthe origin to each of the points given below.(a) (0, 5.7 m)J(b) (5.7 m, 0)J(c) (5.7 m, 5.7 m)J
VERSIUN -B- nen a positive charge moves opposite to the direction of the electric field, A) the field does positive work on it and the potential energy increases. B) the field does positive work on it and the potential energy decreases. C) the field does negative work on it and the potential energy increases. Motion D) the field does negative work on it and the potential energy decreases. 2) A strong lightning bort transfers about 40 C to Earth. How...
7) When a negative charge is released and moves along an electric field line, it moves to a position of A) lower potential and lower potential energy. B) lower potential and higher potential energy. C) higher potential and lower potential energy. D) higher potential and higher potential energy
4- When a (h) charge freely moves in an electric field E: it will always move from a higher potential to a lower potential , (T/F)? If the charge is negative it will always move from the higher potential to the lower one (T/F)? 5-In an electric field pointing from West to East: a) A proton will move from b) An electron will move from to to 6- When a (+) sodium ion traverses the axon membrane from the negative...
Chapter 17 Homework 1. If a negative charge is initially at rest in an electric field, will it move toward a region of higher potential or lower potential? What about a positive charge? How does the potential energy of the charge change in each instance? Explain.
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