Uses of comparsion of emf of two given cells

1.	Uses of comparsion of emf of two given cells
Answer» Answer: Aim To compare the EMF of two given PRIMARY cells (Daniel and Leclanche cells) with the help of a potentiometer. Apparatus/Material Required Potentiometer Daniel Cell Leclanche Cell low RESISTANCE Rheostat Ammeter VOLTMETER Galvanometer A one-way key A two-way key Set Square Jockey Resistance BOX Connecting wires Piece of sandpaper Theory: Using a voltmeter it is possible to measure only the potential difference between the two terminals of a cell, but using a potentiometer we can determine the value of emf of a given cell. where E1 and E2 are EMFs of two cells, l1 and l2 are the balancing lengths when E1 and E2 are connected to the circuit respectively and φ is the potential gradient along the potentiometer wire. E1 /E2 = φ l1 /φ l 2 = l1 /l 2 Procedure Connect the circuit as shown in the figure. With the help of sandpaper, remove the insulation from the ends of connecting copper wire. Measure the EMF (E) of the battery and the EMFs (E1 and E2) of the cell and see if E1 > E and E2 > E. Connect the positive POLE of the battery to the zero end (P) of the potentiometer and the negative pole through the one-way key, low resistance rheostat and the ammeter to the other end of the potentiometer (Q). Connect the positive poles of the cells to the terminal at the zero end (P) and the negative poles to the terminals a and b of the two way key. Connect the common terminal c of the two-way key through a galvanometer (G) and a resistance box to the jockey J. Take maximum current from the battery by making the rheostat resistance zero. Insert the plug in the one-way key through the resistance box and the galvanometer to the jockey J. Take out 2000 Ω plug form the resistance box. Note down the direction of the deflection in the galvanometer by pressing the jockey at zero end. Now, press the jockey at the other end of the potentiometer wire. If the deflection is in the opposite direction to that in the first case, the connections are correct. Push the jockey smoothly over the potentiometer up to a point where galvanometer shows no deflection. Put the 2000 Ω plug back to the resistance box and obtain the null point position accurately with the help of the set square. Note the length l1 of the wire for the cell E1. Note the current as indicated by the ammeter. Disconnect the cell E1 from the plug Connect E2 by inserting the plug into gap be of the two-way key. take out a 2000 ohms plug from resistance box and slide the jockey along potentiometer wire and obtain no deflection position. put 2000 ohms plug back in the RB and obtain null for E2. note the length L2 of wire in this position for the cell E2. by increasing the current and adjusting the rheostat get three sets of observation. Observation E.M.F of battery, E = E.M.F of Leclanche cell, E1 = E.M.F of Daniel cell, E2 = Range of voltmeter = Least count of voltmeter = Least count of ammeter = Zero error of ammeter = Calculations For each observation, find mean l1 and mean l2 and record it 3c and 4c respectively. Find E1/E2, by dividing l1/l2 Find the mean of E1/E2 Result The ratio of EMFs, E1/E2 ≅ _____.

Answer»

Answer:

Aim

To compare the EMF of two given PRIMARY cells (Daniel and Leclanche cells) with the help of a potentiometer.

Apparatus/Material Required

Potentiometer
Daniel Cell
Leclanche Cell
low RESISTANCE Rheostat
Ammeter
VOLTMETER
Galvanometer
A one-way key
A two-way key
Set Square
Jockey
Resistance BOX
Connecting wires
Piece of sandpaper

Theory:

Using a voltmeter it is possible to measure only the potential difference between the two terminals of a cell, but using a potentiometer we can determine the value of emf of a given cell. where E1 and E2 are EMFs of two cells, l1 and l2 are the balancing lengths when E1 and E2 are connected to the circuit respectively and φ is the potential gradient along the potentiometer wire.

E1 /E2 = φ l1 /φ l 2 = l1 /l 2

Procedure

Connect the circuit as shown in the figure.
With the help of sandpaper, remove the insulation from the ends of connecting copper wire.
Measure the EMF (E) of the battery and the EMFs (E1 and E2) of the cell and see if E1 > E and E2 > E.
Connect the positive POLE of the battery to the zero end (P) of the potentiometer and the negative pole through the one-way key, low resistance rheostat and the ammeter to the other end of the potentiometer (Q).
Connect the positive poles of the cells to the terminal at the zero end (P) and the negative poles to the terminals a and b of the two way key.
Connect the common terminal c of the two-way key through a galvanometer (G) and a resistance box to the jockey J.
Take maximum current from the battery by making the rheostat resistance zero.
Insert the plug in the one-way key through the resistance box and the galvanometer to the jockey J.
Take out 2000 Ω plug form the resistance box.
Note down the direction of the deflection in the galvanometer by pressing the jockey at zero end.
Now, press the jockey at the other end of the potentiometer wire. If the deflection is in the opposite direction to that in the first case, the connections are correct.
Push the jockey smoothly over the potentiometer up to a point where galvanometer shows no deflection.
Put the 2000 Ω plug back to the resistance box and obtain the null point position accurately with the help of the set square.
Note the length l1 of the wire for the cell E1.
Note the current as indicated by the ammeter.
Disconnect the cell E1 from the plug
Connect E2 by inserting the plug into gap be of the two-way key.
take out a 2000 ohms plug from resistance box and slide the jockey along potentiometer wire and obtain no deflection position.
put 2000 ohms plug back in the RB and obtain null for E2.
note the length L2 of wire in this position for the cell E2.
by increasing the current and adjusting the rheostat get three sets of observation.

Observation

E.M.F of battery, E =

E.M.F of Leclanche cell, E1 =

E.M.F of Daniel cell, E2 =

Range of voltmeter =

Least count of voltmeter =

Least count of ammeter =

Zero error of ammeter =

Calculations

For each observation, find mean l1 and mean l2 and record it 3c and 4c respectively.
Find E1/E2, by dividing l1/l2
Find the mean of E1/E2