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Transcript
Electric charges in motion Electrical circuits Just like the flow of H2O molecules in a hose is a water current, the flow of electrons in a wire is an electric current. The electrical current is the rate that charge moves through some part of a circuit (I=q/t). One Ampere is a Coulomb per second. When the switch is "open", current can not flow on a continuous conducting path from one pole of the battery to the other. By closing the switch, we allow current to flow unobstructed around the complete circuit. A short circuit is a path with very little resistance to the flow of electrical current. How much electrical charge flows through a light bulb in 8 seconds if the current is 100 mA? Voltage sources The simple water circuit is analogous to an electrical circuit. Electrical charges flow when they are "pushed" or "driven" by energy sources such as batteries, solar cells, or generators. The energy sources do work on charges by increasing their electrical potential energy. Two batteries are in series if they form a single pathway so that the current flows through both batteries. The voltage across the series connection is the sum of the individual voltages. Two batteries are in parallel if they form side-by-side pathways for the current flow. Electrical Resistance The amount of electrical current that flows through the bulb depends on the resistance that the bulb offers to the flow of electrical charges. The resistance of the filament depends on the type of material used to make the filament and its length and diameter. The electrical resistance is measured in units of Ohms (Ω). A flashlight has two 1.5-V batteries placed end to end. What voltage rating should the flashlight bulb have? 9.1 What happens when a light bulb "burns out"? PHYS 1010Q © D.S. Hamilton Ohm's law 9.2 PHYS 1010Q Series and Parallel circuits The relationship between voltage, current, and resistance is summarized by a statement called Ohm's law. Ohm discovered that the current in a circuit is directly proportional to the voltage applied to the circuit and is inversely proportional to its resistance, ie current = © D.S. Hamilton voltage ; resistance I= V ; R Amps = For the series connection, if one bulb burns out or is removed, the other bulb goes out. Volts Ohms Consider the circuit shown below. If the battery is a 1.5V “D” cell, what would be the electrical current if the light bulb has a 15 Ohm resistance. For the parallel connection, if one bulb burns out or is removed, the other bulb goes continues to give off light. Household AC circuits Suppose I replace the light bulb with a different one so that the current was measured to be 50 mA. What is the resistance of this new bulb? 9.3 PHYS 1010Q © D.S. Hamilton Ohm's law works for both direct current (dc) and alternating current (ac) circuits. The ac voltage in ordinary household circuits is about 120 V. If an iron draws 6 A on its high setting, what is the electrical resistance at this setting? 9.4 PHYS 1010Q © D.S. Hamilton Itotal = I1 + I2 + I3 + .... Appliances are connected in parallel to a household circuit. The whole circuit is protected from drawing excessive current by a fuse or “circuit breaker”. Electrical Power Power is the rate that energy is being transferred or transformed. A Watt of power is one Joule of energy per second. Power = energy time = q⋅V t = IV = P; Watt = Joule sec The sticker on the back of my Toshiba portable DVD player indicates that the unit requires 12V and that it draws 3A of electrical current. How much power is being used? If the current exceeds the rated amperage, the metallic ribbon in a fuse will melt and break the circuit. A circuit breaker uses the difference in thermal expansion of a bimetallic strip to break the flow of current. If I watch a 3 hr movie on this DVD player, how much energy did I consume? If the circuit above is protected by a 15 amp fuse and the table lamp draws 1 A, the toaster 8 A and the TV set 4 A, will the fuse blow when I plug in my 3 A coffee grinder? What is the resistance of a 40-W light bulb? A ground wire attached to the case of an appliance keeps the voltage of the case at ground potential (zero volts). This protects against electrical shock. The ground wire, a GFI (ground fault interrupter) outlet and the fuse or breaker are standard safety devices used with household electric circuits. 9.5 PHYS 1010Q © D.S. Hamilton Power and Energy PHYS 1010Q © D.S. Hamilton Electrical shock You pay the ”electric power company" for the energy you have used during the month, not for the power. The energy used is the rate of energy consumption (ie, the power) multiplied by the time duration of energy use. The kilowatt hour (kW·h) is commonly used by electrical distribution providers for purposes of billing. The energy consumption of a residential customer in a one month billing cycle typically ranges from a tens to several hundred kW·h. A 1500-W heater for a sauna requires 30 min to heat the sauna to a temperature of 190°F. How much electrical energy does this represent in kW·h? What does this cost if electricity sells for 12 ¢/kW·h? 9.7 9.6 PHYS 1010Q © D.S. Hamilton The damaging effects of electrical shock are the result of current passing through the body over some extended time. The physiological effects of varying amounts of electrical current are tabulated below. CURRENT 0.005A = 5 mA 0.010A = 10 mA 0.015A = 15 mA 0.070A = 70 mA EFFECT painful tingling involuntary muscle contractions loss of muscle control, breathing disturbed fatal if through heart and > 1 sec From Ohm’s law, the current through your body is I=V/R. The resistance of your body to the flow of current involves both a contact resistance of the skin and a bulk resistance of the surrounding tissue. The current will increase with increasing voltage or decreasing resistance. So for example, skin that is wet with saline solution with a contact resistance of 1,000 Ω will result in a larger current than dry skin whose contact resistance is about 1 MΩ. Compare the electrical current through an object if the voltage is 120 V and the resistance is 1,000 Ω to when the resistance is 1 MΩ? 9.8 PHYS 1010Q © D.S. Hamilton
