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Transcript
Ohm’s Law Lab#03 LAB#03 OBJECTIVE To investigate the relationship between the three variables R, V & I using Ohm’s Law. EQUIPMENT REQUIRED Multi Meter DC Power Supply Different Valued Resistors Bread Board THEORY BREAD BOARD A breadboard is used to make up temporary circuits for testing or to try out an idea. No soldering is required so it is easy to change connections and replace components. Parts will not be damaged so they will be available to re-use afterwards. CONNECTIONS ON BREADBOARD The top and bottom rows are linked horizontally all the way across as shown by the red and black lines on the diagram. Basic Electrical Circuits & Machines Page 9 Ohm’s Law Lab#03 The other holes are linked vertically in blocks of 5 with no link across the centre as shown by the blue lines on the diagram. OHM’S LAW The most applied relation in current electricity is that known as Ohm's Law. This principle states that the potential difference or voltage drop V across a circuit component is proportional to the electric current I which passes through it, the proportionality constant being defined as the resistance R of the conductor: V = RI The unit of resistance is appropriately called the ohm. Thus R is in ohms when V is in volts and I is in amperes. In an electrical circuit with two or more resistances, Ohm's law may be applied to the entire circuit, to a portion of the circuit, or even to each individual resistance of the circuit. Basic Electrical Circuits & Machines Page 10 Ohm’s Law Lab#03 PROCEDURE Choose one of the resistors that you have been given. Using the chart at the bottom of this page or your notes, decode the resistance value and record that value in the first column of the Table. Figure 3.1 Construct the circuit above, leaving the wire between the resistor and the battery unconnected. Set the DMM to the 20 MA range, noting that the red lead should be connected to the plug on the DMM designated for "MA" or "A". The black lead should always be connected to the "COMMON" plug. When your circuit has been approved, connect the remaining wire and read the current that is flowing through the resistor. Record this value in the second column of the Table. Now replace the original resistor with the remaining resistors, one at a time, each time recording the resistance value and the current you measured. When you have completed measuring all of the currents, disconnect the meter and connect the circuit shown below. Change the meter to the 2VDC scale (or 2000 mV) and move the red lead to the plug on the meter that indicates "V". Measure and record the voltage across the resistor for each of the resistors. (On the 2000 mV scale, the decimal point is for millivolts.) Figure 3.2 Basic Electrical Circuits & Machines Page 11 Ohm’s Law Lab#03 OBSERVATIONS Table 3.1 Resistance Current A Voltage V Voltage/Resistance V/ EXERCISE Q1) Construct a graph of Current (vertical axis) Vs Resistance. Basic Electrical Circuits & Machines Page 12 Ohm’s Law Lab#03 Q2) Construct a graph of Current (horizontal axis) Vs Voltage. Q3)From your graph, what is the mathematical relationship between Current and Resistance (for a constant voltage)? ______________________________________________________________________________ ______________________________________________________________________________ ______________________________________________________________________________ Q4)From your graph, what is the mathematical relationship between Current and Voltage (for a constant resistance)? ______________________________________________________________________________ ______________________________________________________________________________ ______________________________________________________________________________ Q5) Ohm's Law state that current is equal to the ratio of voltage/resistance. Does your data concur with this? ______________________________________________________________________________ ______________________________________________________________________________ ______________________________________________________________________________ Basic Electrical Circuits & Machines Page 13 Ohm’s Law Lab#03 Q6) Using Ohm’s Law find the value of the quantity omitted across each line of the following table. Voltage V Current A 0.42 A 1.41 KV 90 mV 120 V Resistance W 200 470 K 3.6 mA 8 mA 1.5 M 4.7 K Q7) What is the value of this resistor, in ohms Ω? ______________________________________________________________________________ ______________________________________________________________________________ ______________________________________________________________________________ ______________________________________________________________________________ ______________________________________________________________________________ Basic Electrical Circuits & Machines Page 14
