to study the dependence of potential difference across a resistance on the current passing through and determine its resistance. Also plat a graph between V and I.
Answers
Answer:
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Explanation:
Potential difference is defined as the work done to move a unit charge from one point to the other. The SI unit of potential difference is volt. Electromotive force is defined as the force that distributes the equilibrium of free-flowing electrons. Below is an experiment to study the dependence of the potential difference across a resistor with current-carrying I.
Aim
To study the dependence of potential difference (V) across a resistor on the current (I) passing through it and determine its resistance. Also, plot a graph between V and I.
Theory
What is Ohm’s law?
In an electric circuit, the potential difference V across the metallic wire is directly proportional to the current flowing through the circuit with a constant temperature. This is known as Ohm’s law.
V∝I. ∴ V=IR.
What are the factors affecting resistance?
Following are the factors affecting resistance:
The nature of the resistor.
With an increase in length, the resistance also increases. So length also affects the resistance.
With an increase in the cross-sectional area, the resistance decreases. So cross-sectional area of the wire affects the resistance.
Materials Required
Following is the list of materials required for this experiment:
A battery
An insulated copper wire
A key
An ammeter
A voltmeter
A rheostat
A resistor
A piece of sandpaper
Circuit Diagram
Circuit diagram
Procedure
Arrange the devices as shown in the circuit diagram.
Connect the devices with the connecting wires keeping the key open.
The positive terminal of the battery should be connected to the positive terminal of the ammeter.
Before connecting the voltmeter in the circuit, check for +ve and -ve terminals.
Check for ammeter and voltmeter reading once the circuit is connected and also adjust the slider of rheostat after inserting the key.
For current I and voltmeter V, record three different readings using a slider.
Record the observations in the observation table.
Using the formula R=V/I, calculate the resistance.
To plot the graph between V and I, take V on the x-axis and I on the y-axis.
For pure metals, resistance increases with an increase in temperature.
Observation Table
i) Least count of ammeter and voltmeter
Sl.no Ammeter (A) Voltmeter (V)
1 Range 0-0.5 A 0-0.1 V
2 Least count 0.01 A 0.01 V
3 Zero error (e) 0 0
4 Zero correction 0 0Swipe left
ii) For the reading of ammeter and voltmeter
Sl.no Current in Ampere (I)
(ammeter reading)
Potential difference in volts (V)
(voltmeter reading)
Resistance in ohms
R = V/I (Ω)
Observed Corrected Observed Corrected
1 0 0.02 0 0.04 R1= 2Ω
2 0 0.03 0 0.06 R2= 2Ω
3 0 0.04 0 0.08 R3= 2ΩSwipe left
Graph
graph between current and voltage
Conclusions
For all the three readings, the R-value is the same and constant.
The ratio of potential difference V and current I is the resistance of a resistor.
With the help of the graph between V and I, Ohm’s law is verified as the plot is a straight line.
Precautions
Thick copper wires are used as connecting wires and using sandpaper, their insulation is removed.
To avoid external resistance, the connections should be tight.
The connections should be as per the circuit diagram and should be approved by the teacher before conducting the experiment.
The current should enter from the positive terminal and exit from the negative terminal of the ammeter and should be connected in series with the resistor.
Resistor and voltmeter should be connected in parallel.
The least count of ammeter and voltmeter should be recorded properly.
When there is no current flow, the pointers of ammeter and voltmeter should be at zero.
To avoid unnecessary heating in the circuit, the current should be passed for a short time.
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