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January 21-26 2016 Electrical Potential Energy Just as masses can have gravitational potential energy, charges can have electrical potential energy Electrical potential energy A mass gains PEg if work is done against gravity (i.e., if the mass is moved against the gravitational field) E A charge gains PEe if work is done against electric force (e.g., if the positive charge is moved against the electric field) Electrical Potential Energy How can a charge (or mass) gain potential energy? By changing location. Gravitational potential energy Work done by monkey Work done by electricity Low PE High PE Electrical potential energy Electrical Potential Energy & Charge Does the amount of work done by the monkey change if the charge changes? How do we know? Yes! W = Fd and electrical force is proportional to charge. F = k𝑞𝑟𝑞 1 2 2 (F between 2 charges) F = Eq (F due to a charge in electric field) What does this imply about potential energy? Potential energy depends on both location and charge. Electrical Potential Energy & Electrical Potential Two different things that sound alike! Introducing … Electrical Potential (V) … a measure that depends only on location, not on charge. electric potential The SI unit of electric potential is the volt. electric potential energy charge Volt = 𝐽 𝐶 Electrical Potential Energy vs Electrical Potential A Two positive charges, A and B, are placed at equal distances from a positively charged sphere. +++++ + + ++++ + A has a larger charge than B. 0.5 m ++ + + + +++ B ++ + ++ 0.5 m Electrical Potential Energy vs Electrical Potential A Two positive charges, A and B, are placed at equal distances from a positively charged sphere. +++++ + + ++++ + A has a larger charge than B. 0.5 m ++ + + + +++ B ++ + ++ 0.5 m Which has greater potential energy (PE)? 1) A 2) B 3) They have the same PE Which has greater electrical potential (V)? 1) A 2) B 3) They have the same V Electrical Potential Energy vs Electrical Potential A Two positive charges, A and B, are placed at equal distances from a positively charged sphere. +++++ + + ++++ + A has a larger charge than B. 0.5 m ++ + + + +++ B ++ + ++ 0.5 m Which has greater potential energy (PE)? 1) A 2) B 3) They have the same PE Which has greater electrical potential (V)? 1) A 2) B 3) They have the same V Electrical Potential Energy vs Electrical Potential Note important difference between energy and potential: • A point has potential, charge placed there has electric potential energy A +++++ + + ++++ + 0.5 m ++ + + + +++ B ++ + ++ 0.5 m Two points that are at the same distance from the charged object have the same potential. So, when two charged objects are placed there, they are at the same potential, but the one with more charge on it has higher electric potential energy. It is harder to push it there. Electrical Potential Energy vs Electrical Potential The quantity electric potential is defined as the amount of _____. 1. electric potential energy 2. force acting upon a charge 3. potential energy per charge 4. force per charge Electrical Potential Energy vs Electrical Potential The quantity electric potential is defined as the amount of _____. 1. electric potential energy 2. force acting upon a charge 3. potential energy per charge 4. force per charge Electrical Potential Energy vs Electrical Potential What happens if a positive charge is moved from point A to point B? Work done by external force? Work done by external force? Electrical Potential Energy vs Electrical Potential What happens if a positive charge is moved from point A to point B? Potential Difference (ΔV) The potential difference between two points is exactly what the name implies – the difference in electrical potential between two points. VB − VA = ∆V The change in electric potential energy between two points also equals the work done per unit of positive charge in order to move it from one point to the other. ∆𝑃𝐸 W ∆V= = q q Charge will naturally move from areas of high potential to areas of low potential. Work / an input of energy is needed to move charge up from low potential to high Potential Difference (ΔV) & Circuits What is the role of a battery in a circuit? Batteries supply energy to maintain a potential difference across the circuit. Potential Difference (ΔV) & Circuits What is the role of a battery in a circuit? Batteries supply energy to maintain a potential difference across the circuit. 1) A 12V battery means that the + terminal has an electric potential that is 12V higher than the – terminal. Potential Difference (ΔV) & Circuits What is the role of a battery in a circuit? Batteries supply energy to maintain a potential difference across the circuit. 1) A 12V battery means that the + terminal has an electric potential that is 12V higher than the – terminal. 2) Charges flow through the external circuit (the wire) from high to low potential. Potential Difference (ΔV) & Circuits What is the role of a battery in a circuit? Batteries supply energy to maintain a potential difference across the circuit. 1) A 12V battery means that the + terminal has an electric potential that is 12V higher than the – terminal. 2) Charges flow through the external circuit (the wire) from high to low potential. 3) As the charges flow through the circuit, they ‘lose’ energy to circuit elements such as lights and motors Potential Difference (ΔV) & Circuits What is the role of a battery in a circuit? Batteries supply energy to maintain a potential difference across the circuit. 1) A 12V battery means that the + terminal has an electric potential that is 12V higher than the – terminal. 2) Charges flow through the external circuit (the wire) from high to low potential. 3) As the charges flow through the circuit, they ‘lose’ energy to circuit elements such as lights and motors 4) By the time the charges get to the end terminal, they have used up 12 V of potential Potential Difference (ΔV) & Circuits What is the role of a battery in a circuit? Batteries supply energy to maintain a potential difference across the circuit. 1) A 12V battery means that the + terminal has an electric potential that is 12V higher than the – terminal. 2) Charges flow through the external circuit (the wire) from high to low potential. 3) As the charges flow through the circuit, they ‘lose’ energy to circuit elements such as lights and motors 4) By the time the charges get to the end terminal, they have used up 12 V of potential 5) The battery supplies the energy necessary to ‘push’ the charges back to high potential Potential Difference (ΔV) & Circuits As charges ‘lose’ energy to different circuit elements, the electric potential decreases. This is known as voltage drop. All of the electric potential difference– i.e. all of the voltage -- is used up by the end of the circuit. 1. The variable we use for potential, potential difference, and the unit for potential difference (volts) is V. 2. Don't let that confuse you when you see V = 1.5V 3. Electric potential energy is not the same as electrical potential. 4. Electrical potential can also be described by the terms, potential difference, voltage, voltage drop, potential drop, potential rise, electromotive force, and EMF. These terms may differ slightly in meaning depending on the situation. Check your understanding Compare an electric circuit to a roller coaster ride. What is the difference in height from the top to the bottom of a rollercoaster analogous to in a circuit? What is the motor that pulls the rollercoaster up the hill analogous to in circuit? Check your understanding Compare an electric circuit to a roller coaster ride. What is the difference in height from the top to the bottom of a rollercoaster analogous to in a circuit? potential difference What is the motor that pulls the rollercoaster up the hill analogous to in circuit? battery Check your understanding If a battery provides a high voltage, it can ____. 1. 2. 3. 4. do a lot of work over the course of its lifetime do a lot of work on each charge it encounters push a lot of charge through a circuit last a long time Check your understanding If a battery provides a high voltage, it can ____. 1. 2. 3. 4. do a lot of work over the course of its lifetime do a lot of work on each charge it encounters push a lot of charge through a circuit last a long time Check your understanding Compared to point D, point A has … 1. 12 V higher potential energy 2. 12 V lower potential energy 3. Exactly the same potential energy The electrical potential energy is 0 at … 1. A 2. B 3. C 4. D Check your understanding Compared to point D, point A has … 1. 12 V higher potential energy 2. 12 V lower potential energy 3. Exactly the same potential energy The electrical potential energy is 0 at … 1. A 2. B 3. C 4. D Check your understanding Energy is required to move a charge from… 1. Point A to point B 2. Point B to point C 3. Point C to point D 4. Point D to point A The energy required to move +2C of charge from D to A is 1. 0.167 J 2. 2 J 3. 6 J 4. 24 J Check your understanding Energy is required to move a charge from… 1. Point A to point B 2. Point B to point C 3. Point C to point D 4. Point D to point A The energy required to move +2C of charge from D to A is 1. 0.167 J 2. 2 J 3. 6 J 4. 24 J