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Electric Potential and Electric Potential Energy

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Presentation on theme: "Electric Potential and Electric Potential Energy"— Presentation transcript:

1 Electric Potential and Electric Potential Energy
Somehow Different!!

2 First let’s examine electric potential energy
First let’s examine electric potential energy. If a charged object is in an electric field it has electric potential energy - that is it has the potential to move in that field. Note that the potential energy it has could be used to move towards or away from the charge. A non-uniform field, such as that provided by a point, is one which has different magnitude and direction depending on proximity to the charge. Again note the similarities…

3 In this case we can derive a formula for the electric potential energy in a NON-UNIFORM FIELD:
Again note the similarities between gravitational and electric potential energy. Again note the similarities…

4 Example: How much work must be done to bring a 4.0 uC charged object to within 1.0 m of a 6.0 uC charged object from a long way away?

5 NOTE: Potential energy is a scalar quantities and so we do not do vector addition. We WILL use + and – signs when calculating potential energy. In this case, bringing a positive charge near another positive charge requires energy therefore work is positive.

6 Example: How much work must be done to bring a -7.0 uC charged object to within 0.5 m of a 5.0 uC charged object from a long way away? In this case, bringing a negative charge near a positive charge releases energy therefore work is negative.

7 Example: A 4.0 x10-9 C charge of mass 2.4 x10-21 kg, is initially located at point A, 3.0 m from a stationary 6.0x10-8 C charge.  a) How much work is required, by an external agent, to move the 4.0x10-9 C charge to a point B, 0.50 m from the stationary charge?

8 b) If the 4.0x10-9 C charge is now released from point B, what will be its velocity when it passes back through point A?

9 Electric Potential Now we need to consider a new quantity, electric potential (V). Electric potential is defined as the electric potential energy per unit charge. Which becomes, NOTE: The electric potential is defined in terms of the moving of a positive charge. Therefore… The unit for potential is…

10 NOTE: The electric potential is defined in terms of the moving of a positive charge. Therefore: + charges move towards areas of low potential. - charges move towards areas of high potential. 2. The unit for potential is J/C or Volts (V)

11 Calculate the potential at point P as shown in the diagram.
Example: Calculate the potential at point P as shown in the diagram. 1 2 3 P 5.0 cm 7.0 cm 4.0 uC 40o 50o -2.0 uC 3.0 uC NOTE: Potentials are scalar quantities and so we do not do vector addition. We WILL use + and – signs when calculating potentials

12 Potential Difference We sometimes want to determine the electric potential between two points. This is known as the potential difference. For example, given two points A and B, the potential difference between A and B is: NOTE: When we talk about potential at a point we are talking about the potential difference between that point and infinity, where the potential at infinity is ZERO.

13 Ex. What is the potential difference between points A and B due to the charge shown? A B 8.00 uC 1.00 m 0.50 m

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