Presentation is loading. Please wait.

Presentation is loading. Please wait.

Q23.1 When a positive charge moves in the direction of the electric field, 1. the field does positive work on it and the potential energy increases 2.

Published byKelley Atkins Modified over 8 years ago

Similar presentations

Presentation on theme: "Q23.1 When a positive charge moves in the direction of the electric field, 1. the field does positive work on it and the potential energy increases 2."— Presentation transcript:

1 Q23.1 When a positive charge moves in the direction of the electric field, 1. the field does positive work on it and the potential energy increases 2. the field does positive work on it and the potential energy decreases 3. the field does negative work on it and the potential energy increases 4. the field does negative work on it and the potential energy decreases

2 A23.1 When a positive charge moves in the direction of the electric field, 1. the field does positive work on it and the potential energy increases 2. the field does positive work on it and the potential energy decreases 3. the field does negative work on it and the potential energy increases 4. the field does negative work on it and the potential energy decreases

3 Q23.2 When a negative charge moves in the direction of the electric field, 1. the field does positive work on it and the potential energy increases 2. the field does positive work on it and the potential energy decreases 3. the field does negative work on it and the potential energy increases 4. the field does negative work on it and the potential energy decreases

4 A23.2 When a negative charge moves in the direction of the electric field, 1. the field does positive work on it and the potential energy increases 2. the field does positive work on it and the potential energy decreases 3. the field does negative work on it and the potential energy increases 4. the field does negative work on it and the potential energy decreases

5 Q23.3 The electric potential energy of two point charges approaches zero as the two point charges move farther away from each other. If the three point charges shown here lie at the vertices of an equilateral triangle, the electric potential energy of the system of three charges is 1. positive 2. negative 3. zero 4. not enough information given to decide

6 A23.3 The electric potential energy of two point charges approaches zero as the two point charges move farther away from each other. If the three point charges shown here lie at the vertices of an equilateral triangle, the electric potential energy of the system of three charges is 1. positive 2. negative 3. zero 4. not enough information given to decide

7 Q23.4 The electric potential due to a point charge approaches zero as you move farther away from the charge. If the three point charges shown here lie at the vertices of an equilateral triangle, the electric potential at the center of the triangle is 1. positive 2. negative 3. zero 4. not enough information given to decide

8 A23.4 The electric potential due to a point charge approaches zero as you move farther away from the charge. If the three point charges shown here lie at the vertices of an equilateral triangle, the electric potential at the center of the triangle is 1. positive 2. negative 3. zero 4. not enough information given to decide

9 Q23.5 Consider a point P in space where the electric potential is zero. Which statement is correct? 1. a point charge placed at P would feel no electric force 2. the electric field at points around P is directed toward P 3. the electric field at points around P is directed away from P 4. none of the above 5. not enough information given to decide

10 A23.5 Consider a point P in space where the electric potential is zero. Which statement is correct? 1. a point charge placed at P would feel no electric force 2. the electric field at points around P is directed toward P 3. the electric field at points around P is directed away from P 4. none of the above 5. not enough information given to decide

11 Q23.6 Where an electric field line crosses an equipotential surface, the angle between the field line and the equipotential is 1. zero 2. between zero and 90° 3. 90° 4. not enough information given to decide

12 A23.6 Where an electric field line crosses an equipotential surface, the angle between the field line and the equipotential is 1. zero 2. between zero and 90° 3. 90° 4. not enough information given to decide

13 Q23.7 The direction of the electric potential gradient at a certain point 1. is the same as the direction of the electric field at that point 2. is opposite to the direction of the electric field at that point 3. is perpendicular to the direction of the electric field at that point 4. not enough information given to decide

14 A23.7 The direction of the electric potential gradient at a certain point 1. is the same as the direction of the electric field at that point 2. is opposite to the direction of the electric field at that point 3. is perpendicular to the direction of the electric field at that point 4. not enough information given to decide

Download ppt "Q23.1 When a positive charge moves in the direction of the electric field, 1. the field does positive work on it and the potential energy increases 2."

Similar presentations

Here we have an apple that is at a height h above the Earths surface.

Here we have an apple that is at a height h above the Earths surface.
Here we have an apple that is at a height h above the Earths surface.

Here we have an apple that is at a height h above the Earths surface.
QUICK QUIZ 25.1 (For the end of section 25.2)

QUICK QUIZ 25.1 (For the end of section 25.2)
Which is the correct expression for work

Which is the correct expression for work
Q21.1 When you run a plastic rod with fur, the plastic rod becomes negatively charged and the fur becomes positively charged. As a consequence of rubbing.

Q21.1 When you run a plastic rod with fur, the plastic rod becomes negatively charged and the fur becomes positively charged. As a consequence of rubbing.
Physics 1161 Lecture 4 Potential & Potential Energy.

Physics 1161 Lecture 4 Potential & Potential Energy.
When we have two charged particles interacting, there is a difference between potential energy and electric potential. A.True B.False.

When we have two charged particles interacting, there is a difference between potential energy and electric potential. A.True B.False.
Rank the electric fluxes through each Gaussian surface shown in the figure from largest to smallest. Display any cases of equality in your ranking.

Rank the electric fluxes through each Gaussian surface shown in the figure from largest to smallest. Display any cases of equality in your ranking.
Chapter 21 Reading Quiz Dr. Harold Williams.

Chapter 21 Reading Quiz Dr. Harold Williams.
© 2012 Pearson Education, Inc. A beam of electrons (which have negative charge q) is coming straight toward you. You put the north pole of a magnet directly.

© 2012 Pearson Education, Inc. A beam of electrons (which have negative charge q) is coming straight toward you. You put the north pole of a magnet directly.
© 2012 Pearson Education, Inc. { Chapter 23 Electric Potential (cont.)

© 2012 Pearson Education, Inc. { Chapter 23 Electric Potential (cont.)
Q23.1 When a positive charge moves in the direction of the electric field, Motion +q A. the field does positive work on it and the potential energy increases.

Q23.1 When a positive charge moves in the direction of the electric field, Motion +q A. the field does positive work on it and the potential energy increases.
They have the same potential energy. Both have zero potential energy.

They have the same potential energy. Both have zero potential energy.
© 2012 Pearson Education, Inc. When you rub a plastic rod with fur, the plastic rod becomes negatively charged and the fur becomes positively charged.

© 2012 Pearson Education, Inc. When you rub a plastic rod with fur, the plastic rod becomes negatively charged and the fur becomes positively charged.
Electric Fields The Electric Field Electric Fields Lines Field due to a Point Charge Field due to an Electric Dipole Field due to a Line of Charge Field.

Electric Fields The Electric Field Electric Fields Lines Field due to a Point Charge Field due to an Electric Dipole Field due to a Line of Charge Field.
Chapter 21 Electric Field 1. Chapter 21.1 The Electric Field Define an electric field Solve problems relating to charge, electric fields, and forces.

Chapter 21 Electric Field 1. Chapter 21.1 The Electric Field Define an electric field Solve problems relating to charge, electric fields, and forces.
When a charged particle moves through a magnetic field, the direction of the magnetic force on the particle at a certain point is Q27.1 A. in the direction.

When a charged particle moves through a magnetic field, the direction of the magnetic force on the particle at a certain point is Q27.1 A. in the direction.
A Charged, Thin Sheet of Insulating Material + + + + + + + + + + +

A Charged, Thin Sheet of Insulating Material
Physics 7C SS1, Lecture 8: Field Model Finish Electric Begin Magnetic.

Physics 7C SS1, Lecture 8: Field Model Finish Electric Begin Magnetic.
If I bring a charged rod to a leaf electrometer: A] nothing will happen B] nothing will happen until I touch the electrometer with the rod - then the leaves.

If I bring a charged rod to a leaf electrometer: A] nothing will happen B] nothing will happen until I touch the electrometer with the rod - then the leaves.

Similar presentations

Ads by Google