Explanation

Electricity
I = 0.36A

Slope (s) = \(\frac{\bigtriangleup {X}^{-1}}{\bigtriangleup {I}}\) = \(\frac{0.08-0.01}{1.68-0.644} = \frac{0.07}{1.036}\)

From the graph, 
When X\(^{-1}\) = 0
I\(_{0}\) of I\(_{1}\) = 0.448A

x. Evaluate \(\frac{I_{0}}{I}\)

= \(\frac{0.448}{0.36}\) = 1.244

Precaution; 

1. The key was opened when readings were not taken.
2. I ensured tight connections of the connecting wire
3. I avoided parallax errors when reading the potentiometer.

(bi) Define emf of a battery: The e.m.f of a cell is the potential difference across its terminals when it is in an open circuit. i.e. not Supplying current to an external circuit.

ii. A cell x emf is 1.018V.
Length\(_{1}\) on the potentiometer x = 50.0cm
Length\(_{2}\) on the potentiometer, y,= 75.0cm
A cell Y emf is?

Solution
By formula;

\(\frac{E_{1}}{E_{2}}\) = \(\frac{L_{2}}{L_{1}}\)

\(\frac{1.018}{E_{2}} = \frac{75.0}{50.0}\)

75.E\(_{2}\) = 1.018 x 50

E\(_{2}\) = \(\frac{1.018\times 50}{75}\)

E\(_{2}\) = 0.612V.

see graph above

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