Ohm’s Law/Resistance of a Wire

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Presentation transcript:

Ohm’s Law/Resistance of a Wire

Warmup: On the circuit drawing below label conventional current flow and electron flow. Why is conventional current flow technically the “wrong” way?

I = q q = It t q = (3A)(12s) tI = qt t q = 36 C q = It How many electrons flow through a battery that delivers a current of 3 A for 12 s? (HINT: 1 C = 6.25 x 1018 e) I = q t q = It q = (3A)(12s) tI = qt t q = 36 C q = It #e = (36C)(6.25 x 1018e) #e = 2.25 x 1020

Resistance (V) Electric potential difference (voltage- like a battery) is necessary for current to flow. (Electric Pressure). (I) Current is the flow of electrons through a circuit. (R) Resistance discourages or controls the flow. It is caused by “things” that get in the way of a direct path. The resistance of a conductor (like a wire) is the ratio of the potential difference applied to the circuit and the current that flows through it…

This is Ohm’s Law… R = V I R = Volts Amps R = ohm (Ω)

Resistors are “things” in a circuit that limit current flow Resistors are “things” in a circuit that limit current flow. They can be controlled resistors or electrical devices like light bulbs or lamps.

Circuit Analogy R = V I The pipe is the counterpart of the wire in the electric circuit. The pump is the mechanical counterpart of the battery. The pressure generated by the pump, that drives the water through the pipe, is like the voltage generated by the battery to drive the electrons through the circuit. The seashells plug up the pipe and constrict the flow of the water creating a pressure difference from one end to the other. In a similar manner the resistance in the electric circuit resists the flow of electricity and creates a voltage drop from one end to the other. Energy is lost across the resistor and shows up as heat.

Try this… A student measures a current of .10 A flowing through a light bulb connected by short wires to a 12 V battery. What is the resistance of the light bulb? R = V I R = 12 V .10 A R = 120 Ω

Try this… A lamp with a resistance of 20 Ω is in a circuit that has a current of .05 A flowing through it. What is the potential difference across the lamp? R = V I V = I R V = (.05 A)(20 Ω) I R = V I I V = 1 V V = I R

Recall slope…What are the slopes for the following graphs? spring constant velocity d F v = d t k = F x t x acceleration mass v F a = v t m = F a t a

Guess what the slope is for this graph: V Resistance (R) R = V I I

Wires made of a certain types of metals are used in circuits because they are good conductors and allow the electrons within them to move relatively freely. Although wires allow current to flow through a circuit they also control the current or have some resistance.

Factors that affect the resistance of a wire: LENGTH: Increasing the length (L) of the wire will increase the resistance of the wire. This is because the current (electrons) will now have further to travel and will encounter and collide with an increasing number of atoms.

Factors that affect the resistance of a wire: 2. AREA: Increasing the cross-sectional area (A) of a wire will decrease the wires resistance. A = πr2 This occurs because in making the wire thicker there is now more spaces between atoms through which the electrons can travel and thus flow easier. The wire isn’t resisting the flow as much.

Factors that affect the resistance of a wire: RESISTIVITY (ρ) – this is a characteristic of a material that depends on its electronic structure and temperature. If a wire is made of a material that has a high resistivity then it will have a high resistance.

Combining all these factors gives us the following equation for the resistance of a wire: R = ρL A Short/thick/cold wires = low resistance (easy for electrons to flow) Long/thin/hot wires = high resistance (hard for electrons to flow) http://phet.colorado.edu/sims/resistance-in-a-wire/resistance-in-a-wire_en.html

Try this… R = ρL A = (1.72 x 10-8 Ω•m)(4m) π(.001m)2 = .0219 Ω Determine the resistance of a 4.00 m length of copper wire having a diameter of 2 mm. Assume the temperature of 20°C. 4 m d= 2 mm ρ copper = 1.72 x 10-8 Ω•m R = ρL A = (1.72 x 10-8 Ω•m)(4m) π(.001m)2 = .0219 Ω

Determine the length of a copper wire that has a resistance of Determine the length of a copper wire that has a resistance of .172 Ω and cross-sectional area of 1 x 10-4 m2. The resistivity of copper is 1.72 x 10-8 Ω•m. L = AR ρ AR = ρLA A L = (.001m2)(.172Ω) (1.72 x 10-8 Ω•m) AR = ρL ρ ρ L = 10,000 m L = AR ρ

Wire A Which one of the five wires has the largest resistance? Material Length Diameter A iron 2 m 6.4 x 10-4 m B copper C 1.2 x 10-3 m D 1 m E Iron ρ iron = 9.7 x 10-8 Ω•m ρ copper = 1.7 x 10-8 Ω•m Which one of the five wires has the largest resistance? High resistance = long/thin/hot wires Wire A

Wire D Of the five wires, which one has the smallest resistance? Material Length Diameter A iron 2 m 6.4 x 10-4 m B copper C 1.2 x 10-3 m D 1 m E Iron ρ iron = 9.7 x 10-8 Ω•m ρ copper = 1.7 x 10-8 Ω•m Of the five wires, which one has the smallest resistance? Small resistance = short/thick/cold Wire D

Wire Material Length Diameter A iron 2 m 6.4 x 10-4 m B copper C 1.2 x 10-3 m D 1 m E Iron ρ iron = 9.7 x 10-8 Ω•m ρ copper = 1.7 x 10-8 Ω•m Which of the wires carries the smallest current when they are connected to identical batteries? How does current (I) relate to resistance (R)? R = V I When current is low, resistance is high. Wire A High resistance = long/thin/hot wires

Resistance Variables Lab Coil # Metal Length (meters) Cross Sectional Area _____ Gauge V Volts (V) I Current (A) R Resistance (Ω) 1 Copper 10 m .325 mm2 22 2 .081 mm2 28 3 20 m 4 5 Copper-Nickel ρ copper = 1.7 x 10-8 Ω•m ρ cop-nick = 4.9 x 10-8 Ω•m First use R = ρL/A to predict the resistance of each circuit.