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Electric Circuits Online Lab 1.Building circuits 2.Measuring Voltage (V) 3.Measuring Current (I) 4.Calculating Resistance (R) 5.Determine the effect of.

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Presentation on theme: "Electric Circuits Online Lab 1.Building circuits 2.Measuring Voltage (V) 3.Measuring Current (I) 4.Calculating Resistance (R) 5.Determine the effect of."— Presentation transcript:

1 Electric Circuits Online Lab 1.Building circuits 2.Measuring Voltage (V) 3.Measuring Current (I) 4.Calculating Resistance (R) 5.Determine the effect of changing V, I and R on bulb brightness 6.Calculation practice

2 Online Circuits Simulator Click on the picture below Click on "Run Now"

3 Electric Circuits Activity 1 – To become familiar with the program create a chart like the chart below and include all of the items you can use in the program. (Hint: Don’t forget the grab bag) ItemCircuit ElementCircuit SymbolFunction Light bulbElectrical LoadConverts electrical energy into light energy

4 Electric Circuits Activity 2 – Now lets practice using some of the circuit elements Grab a wire by clicking and dragging it from the left. Practice changing the shape (length and direction) of the wire by clicking and dragging on one end of the wire Grab a battery Attach the battery to the wire – Grab the end of the wire nearest the battery and move it to one of the ends of the battery and let go. A connection is made when the circles at the end of the device appear shaded.

5 Electric Circuits Check your connection by clicking and dragging the battery. If a connection is made, the wire will move with the battery to maintain the connection Break the connection – Right click on the connection and select “Split Junction”

6 Electric Circuits Activity 3 – Now lets build a simple circuit. Use wires between each part of the circuit. Connect a battery to a switch. Connect the other end of the switch to a light bulb Connect the other end of the light bulb to the free end of the battery Draw a circuit diagram of your circuit. Observe the brightness of the bulb. Observe and record the direction of the electron flow.

7 Electric Circuits Activity 4 – Now we will learn how to use some of the measurement devices. Start with the circuit you created in activity 3. Add a voltmeter that measures the voltage across the battery Break the connection between the battery and the switch. Add an ammeter in between them. (Note: You are not permitted to use the non contact ammeter.) Record the current and the voltage. Using Ohm’s Law, calculate the resistance of the light bulb.

8 Electric Circuits Activity 5 – Now lets learn how to change the properties of the objects we have selected. Start over with the circuit you built in activity 3. Changing the resistance – Right click on the light bulb. Select “Change Resistance Change the resistance to 5 Ω, 9 Ω Observe and record the brightness of the bulb for each resistance. Changing the voltage – Right click on the battery Reset the battery to 0 Ω Select Change Voltage Change the voltage to 18 V, 3 V Observe and record the brightness of the bulb for each voltage. Fill in the chart on the next slide:

9 Activity 5 Resistance and Voltage of the Battery Light Bulb Brightness (Rank 1-10; 10 = brightest) 5 Ω, 9V 9.0 Ω, 9V 0 Ω, 18 V 0 Ω, 3 V

10 Electric Circuits Activity 6 – Using what you learned in activities 4 and 5, create circuits to complete the chart below. To verify Ohm’s Law, make sure the measured current matches the current calculated based on the given resistance and voltage. VoltageResistanceMeasured Current Ohm’s Law Verified (Calculate the current) 18 V5 Ω 3 V5 Ω 18 V9 Ω 3 V9 Ω

11 Electric Circuits Activity 7 – Exploring Series Circuits Using the simulator create a circuit that has a switch, a battery and two light bulbs in series. Use the default values for the battery voltage and for the light bulb resistance. Complete the chart on the following slide for the following: - Measure the current through the light bulbs. - Measure the voltage across the individual bulbs. - Make an observation of the brightness of the bulbs Create a circuit with three light bulbs in series and repeat the above measurements. Finally, disconnect one of the light bulbs, what affect does that have on the other bulbs?

12 Activity 7 CurrentVoltageBrightness Battery Light bulb 1 Light bulb 2 CurrentVoltageBrightness Battery Light bulb 1 Light bulb 2 Light bulb 3 Series Circuit with Two Light Bulbs in Simulator Series Circuit with Three Light Bulbs in Simulator

13 Electric Circuits Activity 8 – Exploring Parallel Circuits Create a circuit with a battery, a switch and two light bulbs in parallel. Use the default setting for the voltage of the battery and the resistance of the bulbs. All answers should be placed in the chart on the following slide: Measure the current through each of the light bulbs Measure the current provided by the battery Measure the voltage across the light bulbs Make an observation of the brightness of each light bulb Create a circuit with three light bulbs in parallel and repeat the observations. Now disconnect on of the light bulbs. How does this affect the other bulbs?

14 Activity 8 CurrentVoltageBrightness Battery Light bulb 1 Light bulb 2 Parallel Circuit with Two Light Bulbs in Simulator CurrentVoltageBrightness Battery Light bulb 1 Light bulb 2 Light bulb 3 Parallel Circuit with Three Light Bulbs in Simulator

15 Electric Circuits Activity 9 – Solving Series and Parallel Circuits All answers are to be included on the chart on the following slide Solve the circuits you created in activities 7 and 8. Compare the measured current and voltage to the current and voltage predicted mathematically Create the circuits below. Circuit 1 – Two light bulbs in series. The first light bulb has a resistance of 10Ω and the second bulb has a resistance of 25 Ω. Circuit 2 – The same light bulbs above in parallel Circuit 3 – Three light bulbs (10 Ω, 15 Ω and 20 Ω) in series Circuit 4 – The same three light bulbs in parallel

16 Activity 9 #DescriptionVoltage measured Current Measured Voltage/Current calculated 1 Two light bulbs in series. The first light bulb has a resistance of 10 Ω (R 1 )and the second bulb has a resistance of 25 Ω (R 2 ). V1=V2=VB=V1=V2=VB= I= V 1 = I R 1 V 2 = I R 2 2 The same light bulbs above in parallel V1=V2=VB=V1=V2=VB= I1=I2=I1=I2= I 1 = V 1 / R 1 1 2 = V 2 / R 2 3 Three light bulbs ( R 1 = 10 Ω, R 2 = 15 Ω and R 3 = 20 Ω ) in series. V1=V2=V3=VB=V1=V2=V3=VB= I= V 1 = I R 1 V 2 = I R 2 V 3 = I R 3 4 The same three light bulbs in parallel V1=V2=V3=VB=V1=V2=V3=VB= I1=I2=I3=I1=I2=I3= I 1 = V 1 / R 1 I 2 = V 2 / R 2 I 3 = V 2 / R 2

17 Electric Circuits Activity 10 – Power and Energy All answers are to be written in the chart on the following slide Create a circuit with a battery, a switch and two light bulbs in parallel. Measure the voltage across the battery and the current through the battery. Determine the power used by the circuit Measure the voltage across the light bulbs and the current through the light bulbs and determine the power used by each bulb. Repeat the above measurements and calculations for a series circuit with two light bulbs.

18 Activity 10 DescriptionVoltage measured Current Measured Power calculated (P=IV) Two light bulbs in parallel V1=V2=VB=V1=V2=VB= I1=I2=IB=I1=I2=IB= P 1,2 = I 1 V 1 P B = I B V B Two light bulbs in series. V1=V2=VB=V1=V2=VB= I1=I2=IB=I1=I2=IB= P 1,2 = P B = Three light bulbs in series V1=V2=V3=VB=V1=V2=V3=VB= I1=I2=I3=IB=I1=I2=I3=IB= P 1,2,3 = P B = Three light bulbs in parallel V1=V2=V3=VB=V1=V2=V3=VB= I1=I2=I3=IB=I1=I2=I3=IB= P 1,2,3 = P B =

19 Electric Circuits Activity 11 – Wiring Batteries Answers should be included in the chart on the following slide Create a circuit that has two batteries in series, a switch and a light bulb. Use default setting for all devices. Measure the current through the batteries as well as the voltage across the batteries Make an observation of the brightness of the bulb. Measure the voltage across just one battery. Use this voltage to determine the power being used by that battery. Repeat the above observations for a circuit with the two batteries in parallel.

20 Activity 11 Two batteries in Parallel Two batteries in Series Voltage of 2 batteries: Current of 2 batteries: Brightness of bulb: Voltage for one battery: Power for one battery:

21 Electric Circuits Fill in the following chart which looks at the advantages, disadvantages and practical applications of each. Circuit type AdvantagesDisadvantagesPractical Applications Batteries in Series Batteries in Parallel

22 Electric Circuits Activity 12 – Solving Circuits Look at the circuits on the following slides. Solve the circuits calculating the voltage, current and any unknown resistances. **RT Series = R1 + R2 + … + Rn  simply add the resistances found in the circuit **RT Parallel = Build the circuit on the simulator and make all measurements to verify your calculations.

23 Circuit 1

24 Circuit 2

25 Circuit 3

26 Go to the following website and solve the given circuits Click Here

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