PAG 03.2 Investigating Electrical Characteristics

Question 1

How can the current passing through a component by measured?

Answer 1

An ammeter can be connected in series with the component to measure the current passing through it

Question 2

How can the potential difference across a component by measured?

Answer 2

A voltmeter can be connected in parallel to the component to measure the potential difference across it

Question 3

What is a rheostat?

Answer 3

A component whose resistance can be varied throughout an experiment to produce varying currents

Question 4

State Ohm’s Law

Answer 4

Ohm’s Law states that the current flowing through a component is directly proportional to the potential difference across it, assuming constant conditions (no temperature changes)

Question 5

How can you obtain readings for negative voltages?

Answer 5

Reverse the polarity of your supply across the component

Question 6

Describe the I-V graph for an Ohmic component

Answer 6

Current and potential difference are directly proportional so the I-V graph will form a straight line that passes through the origin

Question 7

Describe the I-V characteristics of a diode

Answer 7

Diodes only let current flow in one direction and require a minimum potential difference (threshold voltage) before current can flow

Question 8

Why should the power source be switched off between readings?

Answer 8

Electrical components can become very hot when currents pass through them for extended periods of time. To reduce this heating effect, the power source should be switched off when not in use

Question 9

Suggest why the reading given by a voltmeter may differ slightly from the true value

Answer 9

Voltmeters are assumed to have infinite resistance and so it is assumed that no current is drawn through them. In reality a very small current may be drawn, resulting in the reading differing slightly from the true value

Question 10

Suggest why the reading given by an ammeter may slightly differ from the true value

Answer 10

Ammeters are assumed to have zero resistance and so it is assumed that there is no voltage drop across them. In reality they may have a very small voltage drop across them, resulting in the reading differing slightly from the true value

Question 11

Why is it important that the surrounding temperature remains constant when carrying out this experiment?

Answer 11

Temperature changes can affect the resistance of components, which may result in inaccurate characteristics being observed

Question 12

Why does temperature affect resistance?

Answer 12

When temp increases, the ions in the component gain kinetic energy and so vibrate more. This makes it harder for the electrons (the current) to flow through the components and so the resistance is higher

Question 13

What safety precautions should be taken when carrying out this experiment?

Answer 13

Switch off the power supply when not in use, to reduce the components becoming too hot. Never touch exposed metal contacts and ensure the voltages being used don’t exceed the ratings of the components