Learning focus

Explain electrochemical and energetic processes using ions, electrons, balanced equations, observations, energy pathways and quantitative evidence.

Method sequence

Clean the object, connect it to the negative terminal, connect the plating metal to the positive terminal, immerse both in a suitable electrolyte and pass direct current.

A reliable electroplating method controls preparation and electrical conditions.
A reliable electroplating method controls preparation and electrical conditions.
Coating thickness

Longer electrolysis time and greater current generally increase the amount deposited. However, excessive current can produce a rough or poorly adhering coating.

Current, time and surface condition influence coating quality.
Current, time and surface condition influence coating quality.
Uniformity

Electrode spacing, shape, movement of solution and surface cleanliness affect uniformity. The object should be fully immersed without the electrodes touching.

Evaluation

Quality can be assessed by mass gain, visual uniformity and adhesion. A fair investigation changes one variable while controlling time, current, ion concentration, temperature and exposed area as appropriate.

Worked example

If identical objects are plated for 2, 4 and 6 minutes at constant current, mass gain should generally increase with time. A graph can test whether the relationship is approximately linear.

Practical or data skill

Plan an investigation into how plating time affects mass gain. Include repeats, drying procedure and safety.

Examination tip

A specific improvement must address a named problem, such as cleaning to improve adhesion.

Review questions and suggested answers
Question 1

Name two variables affecting coating thickness.

Suggested answer

Current and time.

Question 2

Why must electrodes not touch?

Suggested answer

Touching can short-circuit the cell.

Question 3

How can coating amount be measured?

Suggested answer

By measuring object mass before and after plating.