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Transformers Textbook Section 23-10 Physics 1161: Lecture 14.

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1 Transformers Textbook Section 23-10 Physics 1161: Lecture 14

2 Transformers Increasing current in primary creates an increase in flux through primary and secondary.   iron VsVs VpVp Same  t Energy conservation! I p V p = I s V s R (primary) (secondary) NSNS NPNP Key to efficient power distribution

3 Transformers Key to Modern electrical system Starting with 120 volts AC – Produce arbitrarily small voltages. – Produce arbitrarily large voltages. Nearly 100% efficient

4 Checkpoint Transformer 1 The voltage difference across the resistor R is 1. V 2. V N 1 /N 2 3. V N 2 /N 1 4. 0

5 When the switch is closed, the ammeter shows 1. I=0 2. I quickly jumps to a non-zero value and then quickly returns to zero. 3. I is a steady non-zero value. Checkpoint Transformer 2

6 Checkpoint Transformer 3 How does I R compare to the current that is drawn from the AC source I in ? I R I in

7 Checkpoint Power Line Power is transferred from the power plant to your house through high voltage power lines because: Generators at power plants operate at high voltages. It will decrease power losses. The power company wants to deter people from climbing the lines.

8 Checkpoint Transformer The good news is you are going on a trip to France. The bad news is that in France the outlets have 240 volts. You remember from Phy1151 that you need a transformer, so you wrap 100 turns around the primary. How many turns should you wrap around the secondary if you need 120 volts out to run your hair dryer?   iron VsVs VpVp R 1) 502) 1003) 200 (primary) (secondary) NSNS NPNP

9 Checkpoint Transformer The good news is you are going on a trip to France. The bad news is that in France the outlets have 240 volts. You remember from Phy1161 that you need a transformer, so you wrap 100 turns around the primary. How many turns should you wrap around the secondary if you need 120 volts out to run your hair dryer?   iron VsVs VpVp R 1) 502) 1003) 200 (primary) (secondary) NSNS NPNP

10 A 12 Volt battery is connected to a transformer that has a 100 turn primary coil, and 200 turn secondary coil. What is the voltage across the secondary after the battery has been connected for a long time? 1.V s = 0 2.V s = 6 V 3.V s = 12 V 4.V s = 24 V

11 A 12 Volt battery is connected to a transformer that has a 100 turn primary coil, and 200 turn secondary coil. What is the voltage across the secondary after the battery has been connected for a long time? Transformers depend on a change in flux so they only work for alternating currents! 1.V s = 0 2.V s = 6 V 3.V s = 12 V 4.V s = 24 V

12 In a transformer the side with the most turns always has the larger peak voltage. (T/F) 1.True 2.False

13 In a transformer the side with the most turns always has the larger peak voltage. (T/F) 1.True 2.False

14 In a transformer the side with the most turns always has the larger peak current. (T/F) 1.True 2.False

15 In a transformer the side with the most turns always has the larger peak current. (T/F) 1.True 2.False

16 In a transformer the side with the most turns always dissipates the most power. (T/F) 1.True 2.False

17 In a transformer the side with the most turns always dissipates the most power. (T/F) 1.True 2.False

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