Using the ‪Circuit Construction Kit: DC - Virtual Lab‬: https://lms.lausd.net/link?a=2627105032&path=https%3A%2F%2Fphet.colorado.edu%2Fsims%2Fhtml%2Fcircuit-construction-kit-dc-virtual-lab%2Flatest%2Fcircuit-construction-kit-dc-virtual-lab_en.html

• Can you assist me in creating a circuit with three light bulbs (source of resistance) with different resistance in parallel with one battery
• The steps given are:
• Place an ammeter in the circuit before the first light bulb to measure the current through (I) the first bulb.
• Place an ammeter in the circuit before the other bulbs to measure the current through (I) each of the other bulbs.
• Place voltmeter probes across each light bulb and record the voltage across (V) each light bulb.
• Draw a schematic of your circuit with the V, R₁, R₂, R₃ , and I labeled
• a table to record the measurements. Record for each resistor: V, and I like this.
  

  R (Ω)	I (A) through the resistor	V (V) across the resistor

   

  1. What do you notice about the relationship between the different currents?

  2. What do you notice about the relationship between the different voltages?

Transcribed Image Text:

### Series Circuit with Light Bulbs - Educational Overview **Description:** This interactive image demonstrates a series circuit containing three light bulbs, each with a resistance of 10.0 Ω, a battery with a voltage of 9.0 V, and various measuring instruments. **Circuit Diagram:** 1. **Light Bulbs**: The circuit consists of three light bulbs arranged in series. Each light bulb has a resistance of 10.0 Ω. 2. **Current Meters (Ammeters)**: There are four ammeters placed at different sections of the circuit: - One near the top of the circuit indicating a current of 0.90 A. - One below the first light bulb also showing 0.90 A. - Another after the second light bulb verifying the current as 0.90 A. - One near the battery indicating a current of 2.70 A. 3. **Battery**: The battery provides 9.0 V to the series circuit. 4. **Voltmeter**: Attached to the circuit to measure voltage, with its probes placed near the bottom. **Controls & Options:** - **Current Direction**: Options to toggle between showing electron flow (Electrons) and conventional current flow (Conventional). Electron flow is selected. - **Labels**: Checkboxes to display labels and values, both of which are checked. - **Additional Settings**: Buttons to adjust wire resistivity and battery resistance. **Flow of Electrons**: - The diagram shows the flow of electrons through the circuit. With electron flow selected, the direction indicates the movement from negative to positive terminal of the battery. **Explanation of Values and Measurements**: - **Ammeters** measure the flow of current in different points of the circuit, consistently reporting 0.90 A in all positions within the network of resistors indicating they are in series with the same current flowing through them. - **Battery Current** reading of 2.70 A might be a discrepancy given typical understanding of series circuits. Reassessments or considerations of voltage drops or arrangement specifics might be needed. This educational tool helps visualize electric current, resistance, and voltage in a series circuit. It highlights how current remains consistent across components in a series and shows how voltage might be divided. It is especially useful in understanding the setup and behavior in practical electricity scenarios.