Presentation is loading. Please wait.

Presentation is loading. Please wait.

Advanced Higher Physics Electric Potential. Electric Potential 1 V = work done / q(measured in J C -1 ) Defined as ‘the work done per unit positive charge.

Published byLenard Davidson Modified over 8 years ago

Similar presentations

Presentation on theme: "Advanced Higher Physics Electric Potential. Electric Potential 1 V = work done / q(measured in J C -1 ) Defined as ‘the work done per unit positive charge."— Presentation transcript:

1 Advanced Higher Physics Electric Potential

2 Electric Potential 1 V = work done / q(measured in J C -1 ) Defined as ‘the work done per unit positive charge in moving a charge from infinity to a point in an electrical field’ Gives the definition of the volt - one volt (1 V) = one joule per coulomb (1 JC -1 )

3 Electric Potential 2 The potential difference (p.d.) between two points A and B is the work done per unit charge in moving between points A and B. d B A ( also, * This is only true for a UNIFORM field. )

4 Electric Potential 3 Law of conservation of energy tells us that work done in moving charge from point A to point B is independent of the route taken. If the p.d. between A and B is V, the same amount of work must be done in moving a unit of charge from A to B, whatever path is taken. This is because the electric field is a conservative field.

5 Electric Potential 4 From the equation E = V / d we can see that electrical field strength, E, can be expressed volts per metre, V m -1 E can be thought of as a ‘potential gradient’ In a non-uniform field,

6 Electric Potential 5 using r to represent distance, But, we already know that - Combining these gives -

7 Electric Potential 6 Integrating as shown, we get

8 Electric Potential 7 NB - be careful with the sign of the potential. In moving a positive charge from infinity to r, the charge will have gained potential energy, as work has to be done on the charge against the electric field.

9 Electric Potential 8 So if we have defined the potential to be zero at infinity, the potential V must be positive for all r less than infinity. Thus the potential at r is given by -

10 Electric Potential 9 Unlike the electric field, the electric potential around a point charge decays as 1 / r, not 1 / r 2. The potential is a scalar quantity, not a vector quantity, although its sign is determined by the sign of the charge Q.

11 Electric Potential 10 The field strength and potential around a positive point charge are plotted below

12 Electric Potential 11 We can plot the equipotential lines (connecting points of the same potential) around a point charge, as shown below The equipotentials form a set of concentric spheres around the charge Note that the equipotentials cut the electric field lines at right angles. There is no work done in moving a charged particle along an equipotential.

Download ppt "Advanced Higher Physics Electric Potential. Electric Potential 1 V = work done / q(measured in J C -1 ) Defined as ‘the work done per unit positive charge."

Similar presentations

The divergence of E If the charge fills a volume, with charge per unit volume . R Where d is an element of volume. For a volume charge:

The divergence of E If the charge fills a volume, with charge per unit volume . R Where d is an element of volume. For a volume charge:
Which is the correct expression for work

Which is the correct expression for work
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.
EE3321 ELECTROMAGENTIC FIELD THEORY

EE3321 ELECTROMAGENTIC FIELD THEORY
Chapter 22 Electric Potential.

Chapter 22 Electric Potential.
Physics 121: Electricity & Magnetism – Lecture 5 Electric Potential Dale E. Gary Wenda Cao NJIT Physics Department.

Physics 121: Electricity & Magnetism – Lecture 5 Electric Potential Dale E. Gary Wenda Cao NJIT Physics Department.
Electric Potential Physics 102 Professor Lee Carkner Lecture 12.

Electric Potential Physics 102 Professor Lee Carkner Lecture 12.
Electric Potential Energy PH 203 Professor Lee Carkner Lecture 6.

Electric Potential Energy PH 203 Professor Lee Carkner Lecture 6.
Topic 9.3 Electric Field, Potential, and Energy

Topic 9.3 Electric Field, Potential, and Energy
General Physics 2Electric Potential1 As with mechanics, energy is a useful quantity in studying electric forces electric potential or potential electric.

General Physics 2Electric Potential1 As with mechanics, energy is a useful quantity in studying electric forces electric potential or potential electric.
Electric Potential I Physics 2113 Jonathan Dowling Physics 2113 Lecture 13: FRI 13 FEB Danger!

Electric Potential I Physics 2113 Jonathan Dowling Physics 2113 Lecture 13: FRI 13 FEB Danger!
Electric Potential Physics 102 Professor Lee Carkner Lecture 12.

Electric Potential Physics 102 Professor Lee Carkner Lecture 12.
Physics for Scientists and Engineers II, Summer Semester 2009 Lecture 4: May 27 th 2009 Physics for Scientists and Engineers II.

Physics for Scientists and Engineers II, Summer Semester 2009 Lecture 4: May 27 th 2009 Physics for Scientists and Engineers II.
Ch 25 – Electric Potential

Ch 25 – Electric Potential
Lecture 3 Electrical Energy Chapter 16.1  16.5 Outline Potential Difference Electric Potential Equipotential Surface.

Lecture 3 Electrical Energy Chapter 16.1  16.5 Outline Potential Difference Electric Potential Equipotential Surface.
ELECTRICITY PHY1013S POTENTIAL Gregor Leigh

ELECTRICITY PHY1013S POTENTIAL Gregor Leigh
Electric Energy and Capacitance

Electric Energy and Capacitance
Chapter 16 Electric Energy and Capacitance. Question I Three equal positive charges are placed on the x-axis, one at the origin, one at x = 2 m, and the.

Chapter 16 Electric Energy and Capacitance. Question I Three equal positive charges are placed on the x-axis, one at the origin, one at x = 2 m, and the.
Electrical Energy and Capacitance

Electrical Energy and Capacitance
Gioko, A. (2007). Eds AHL Topic 9.3 Electric Field, potential and Energy.

Gioko, A. (2007). Eds AHL Topic 9.3 Electric Field, potential and Energy.

Similar presentations

Ads by Google