DC Circuit – Practice Problems Problem 1 – Parallel bulbs, ceiling lamps and you. Problem 2 – The Current Issue of Powerful Computing? Problem 3 – If a voltmeter were a car it would park like this? Problem 4 – It costs how much? You’ve got to be kidding! Summary - What did I learn? Here is what you should learn! Click on this icon to return to the this slide.
Problem 1 Consider a ceiling lamp made from 3 bulbs wired in parallel. The bulbs are rated 100, 75 and 60 watts respectively and operate at 120 volts. Clearly Sketch and label a circuit diagram modeling the ceiling lamp. The lamps are the only elements using energy in the circuit . The circuit is protected by a 15 amp circuit breaker. B. Calculate the current through each individual bulb. C. Discuss relationships that exists between individual bulb currents, total lamp current & the circuit breaker. Answer B Answer C
Answer 1A The current through each individual bulb depends on the power rating of the bulb. The power rating on each bulb measures the rate of which the bulb can transform electrical energy into heat and light energy: the greater the power, the greater the current. The greatest current is through the 100 watt bulb and least through the 60 watt bulb. Problem 1 Problem 1 The sum of individual bulb currents add to equal the total lamp current. If the lamp current exceeds the limit set by the circuit breaker the circuit will open resulting in no current. I = 0 amps. Back
Answer 1B Problem 1 Problem 1 60 w R1 100 w R3 120 V 75 w R2 Power is the product of current and voltage therefore, current is the ratio of power to voltage. In parallel each bulb has the same voltage across it. I1 = 0.5 amps I2 = 0.625 amps I3 = 0.833 amps Back
Problem 2 Lamp 1 .2 amps Monitor 2.2 amps Speakers 1.5 amps Scanner .52 amps Computer 4.0 amps How much power is used to operate this computer workstation? Each device operates at 120 volts. Video Camera .375 amps Printer .667 amps Answer
Back TOTAL CURRENT = 10.46 AMPS TOTAL POWER = 1255 WATTS (1.26 kW) Answer 2 Lamp 144 watts Video Camera 45 watts Scanner 62.4 watts Computer 480 watts Speakers 180 watts Monitor 264 watts Printer 80 watts TOTAL CURRENT = 10.46 AMPS TOTAL POWER = 1255 WATTS (1.26 kW) Back
If Voltmeter Were a Car It Would Park In Parallel! Consider the adjacent Series Circuit: Draw an equivalent circuit and calculate the equivalent resistance. Calculate the current reading on the ammeter. Calculate the voltage drop across each Resistor. R1=4.5 Ohms R2=7.5 Ohms R3=8 Ohms Answer
DC SERIES CIRCUIT Back The equivalent resistance is Req = 20 Ohms. Answer 3 DC SERIES CIRCUIT V A Req The equivalent resistance is Req = 20 Ohms. The current in the circuit is I = 0.75 Ampere. The Voltage Drops across: VR1 = 3.375 Volts VR2 = 5.625 Volts VR3 = 6.0 Volts 15 V Back
It costs how much? You've got to be kidding! Problem 4 Scanner 62.4 watts Speakers 180 watts Lamp 144 watts Computer 480 watts Monitor 264 watts Video Camera 48 watts Calculate the cost of operating this computer system for 1 month at $ 0.10 per kwh. (24 hours x 30 days.) Printer 80 watts You've got to be kidding! Answer
Answer 4 It costs how much? $ 90.36 per month Back
Series Circuit Summary Summary of DC Circuits Parallel Circuits The voltage is constant across circuit elements in parallel. The current through circuit elements in parallel can change. The sum of individual currents add to equal the total system current. The sum of the individual element’s power add to equal the total system power. Power = Energy / Time = I x V = V2/R = I2 x R Series Circuit Summary
Summary of DC Circuits Series Circuits The current circuit elements wired in series is constant. The voltage can change across a circuit element wired in series. The sum of voltage drops across individual circuit elements equals the voltage of the power supply. The equivalent resistance of a circuit with more than one circuit element wired in series is equal to the sum of the individual circuit element’s resistance.