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How do Flashlights Work ?. Observations About Flashlights Turned on/off with a switch The more batteries, the brighter the filament The orientation of.

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Presentation on theme: "How do Flashlights Work ?. Observations About Flashlights Turned on/off with a switch The more batteries, the brighter the filament The orientation of."— Presentation transcript:

1 How do Flashlights Work ?

2 Observations About Flashlights Turned on/off with a switch The more batteries, the brighter the filament The orientation of multiple batteries matter Flashlights get dimmer as batteries age Main Parts of a Flashlight 1.Battery – the ‘energy source’ 2. Wire – path for electrical charges to flow thru (current) 3. Light Bulb – the ‘load’ of your circuit 4.Switch – opens or closes the ‘circuit’ thru which current flows.

3 The Battery + - Battery ‘pumps’ charge from – end to + - Chemical potential energy is consumed - Produce eletrostatic potential energy Current undergoes a rise in voltage alkaline cells: 1.5 volts; lead-acid: 2.0 volts; lithium: 3.0 volts Sequence of Batteries produce larger voltage rise

4 The Light Bulb Contains filament which poorly conducts current (high Resistance to produce lots of heat) Consumes electrostatic potential energy and transforms it to heat/thermal energy. Across the Bulb, the current undergoes a ‘drop in voltage’ i.e. energy is lost to thermal energy. For a 2-cell alkaline flashlight, there is a 3.0 volt drop.

5 The Closed Loop of Current + - Switch Current I Ground 1.5 volts A B C D A : The voltage of the charges is 1.5 volts, relative to ‘Ground’ B : Voltage is still 1.5 volts (assuming perfectly conducting wires) C : Voltage is zero D: Voltage is zero Battery resupplies energy to charges when they cross the battery

6 Observations: Steady current requires a circuit path or loop, i.e. Charges cannot accumulate anywhere. Steady current flow requires energy replenishment Where do charges lose this energy ? - thru heat in conductors ! Circuit transports energy from battery to the load: a light bulb

7 Why does a battery die and the bulb dims ? In the Forward Current Flow (Discharging) battery pumps charge from – to + end battery’s chemical potential energy is consumed In the Reverse Current Flow (Charging) Circuit pushes charges from + to – battery’s chemical potential energy is replenished works for Ni-MH (nickel metal hidride batteries) + - + - Current I

8 What Really Flows in a Circuit ? By Convention, current points in the direction of positive flow. But….what really flows are Negatively-charged Electrons. Negative Charges flowing to the right = Positive Charges flowing to the left - + We stick to the convention but remind ourselves of the real flow of electrons.

9 What’s a Short Circuit ? + - Switch Current I Ground 1.5 volts A B C D What happens if the circuit bypasses the load ? A ‘short’ occurs. Energy Loss and heating occurs in the wires! Main ingredient for a fire !

10 The Power delivered by a Battery Power = energy delivered per unit time, units of Joules/sec or Watts Power = (Current supplied by Battery)(Voltage rise across battery) = I  V The Power consumed by a Load Power = (Current thru load)(voltage drop across load) = I  V

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