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Current and Resistance 1 12-11-2014 FCI
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Define the current. Understand the microscopic description of current. Discuss the rat at which the power transfer to a device in an electric current. 212-11-2014FCI
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2-1 Electric current 2-2 Resistance and Ohm’s Law 2-3 Current density, conductivity and resistivity 2-4 Electrical Energy and Power 312-11-2014FCI
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Whenever electric charges of like signs move, an electric current is said to exist. The current is the rate at which the charge flows through this surface ◦ Look at the charges flowing perpendicularly to a surface of area A The SI unit of current is Ampere (A) 1 A = 1 C/s 412-11-2014FCI
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∆Q is the amount of charge that passes through this area in a time interval ∆ t, the average current I av is equal to the charge that passes through A per unit time 5 We define the instantaneous current I as the differential limit of average current: 12-11-2014FCI
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The direction of the current is the direction positive charge would flow ◦ This is known as conventional current direction In a common conductor, such as copper, the current is due to the motion of the negatively charged electrons It is common to refer to a moving charge as a mobile charge carrier. A charge carrier can be positive or negative. For example, the mobile charge carriers in a metal are electrons. 612-11-2014FCI
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Charged particles move through a conductor of cross- sectional area A n is the number of charge carriers per unit volume n A Δx is the total number of charge carriers 712-11-2014FCI
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The total charge is the number of carriers times the charge per carrier, q ◦ ΔQ = (n A Δx) q The drift speed, v d, is the speed at which the carriers move ◦ v d = Δx/ Δt Rewritten: ΔQ = (n A v d Δt) q Finally, current, I = ΔQ/Δt = nqv d A OR 8 the average current in the conductor 12-11-2014FCI
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If the conductor is isolated, the electrons undergo random motion When an electric field is set up in the conductor, it creates an electric force on the electrons and hence a current 912-11-2014FCI
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The zig-zag black line represents the motion of charge carrier in a conductor The net drift speed is small The sharp changes in direction are due to collisions The net motion of electrons is opposite the direction of the electric field 1012-11-2014FCI
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Consider a conductor of cross-sectional area A carrying a current I. The current density J in the conductor is defined as the current per unit area. Because the current I = nqv d A, the current density is: 11 the current density is proportional to the electric field: Where σ the constant of proportionality & is called the conductivity of the conductor. 12-11-2014FCI
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If the field is assumed to be uniform, the potential difference is related to the field through the relationship 12 express the magnitude of the current density in the wire as 12-11-2014FCI
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Where,J = I/A, we can write the potential difference as 13 The quantity R = ℓ/σA is called the resistance of the conductor. We can define the resistance as the ratio of the potential difference across a conductor to the current in the conductor:, 12-11-2014FCI
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In a conductor, the voltage applied across the ends of the conductor is proportional to the current through the conductor The constant of proportionality is the resistance of the conductor 1912-11-2014FCI
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Units of resistance are ohms (Ω) ◦ 1 Ω = 1 V / A Resistance in a circuit arises due to collisions between the electrons carrying the current with the fixed atoms inside the conductor 2012-11-2014FCI
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Experiments show that for many materials, including most metals, the resistance remains constant over a wide range of applied voltages or currents This statement has become known as Ohm’s Law ◦ ΔV = I R Ohm’s Law is an empirical relationship that is valid only for certain materials ◦ Materials that obey Ohm’s Law are said to be Ohmic 2112-11-2014FCI
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An ohmic device The resistance is constant over a wide range of voltages The relationship between current and voltage is linear The slope is related to the resistance 2212-11-2014FCI
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Non-Ohmic materials are those whose resistance changes with voltage or current The current-voltage relationship is nonlinear A diode is a common example of a non- Ohmic device 2312-11-2014FCI
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