CURRENT AND RESISTANCE LECTURE 8 DR. LOBNA MOHAMED ABOU EL-MAGD.

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Presentation transcript:

CURRENT AND RESISTANCE LECTURE 8 DR. LOBNA MOHAMED ABOU EL-MAGD

A battery is called either a source of electromotive force or, more commonly, a source of emf. The emf  of a battery is the maximum possible voltage the battery can provide between its terminals. When an electric potential difference exists between two points, the source moves charges from the lower potential to the higher. The positive terminal of a battery is at a higher potential than the negative terminal. there is resistance to the flow of charge within the battery. This resistance is called internal resistance r. the potential difference across the battery (called its terminal voltage) equals its emf.

The potential difference across the load resistance is  V = IR. Multiplying Equation 6.2 by the current I in the circuit gives power delivered by the battery ( watt)

EXAMPLE 1-A battery has an emf of 12.0 V and an internal resistance of 0.05 . Its terminals are connected to a load resistance of 3.00 . (A) Find the current in the circuit and the terminal voltage of the battery. (B) Calculate the power delivered to the load resistor, the power delivered to the internal resistance of the battery, and the power delivered by the battery. (c) What if ? As the battary ages, its r increase. Suppose r= 2.00 , how does the ability to deliver energy

RESISTORS IN SERIES AND PARALLEL When two or more resistors are connected together as are the light bulbs, they are said to be in a series combination.

PARALLEL COMBINATION

EXAMPLE A- Find the Equivalent Resistance :Four resistors are connected as shown (B) What is the current in each resistor if a potential difference of 42 V is maintained between a and c ?

3- Three resistors are connected in parallel as shown in Figure 6.7a. A potential difference of 18.0 V is maintained between points a and b. (A)Calculate the equivalent resistance of the circuit. (B) Find the current in each resistor. (C) Calculate the power delivered to each resistor and the total power delivered to the combination of resistors (a) Three resistors connected in parallel (b) Another circuit with three resistors and a battery. Is it equivalent to the circuit in (a)?