AQA A Level Physics

Revision Notes

A LevelPhysicsAQARevision Notes12. Turning Points in Physics12.1 The Discovery of the Electron12.1.4 Thomson's Cathode Ray Experiment

12.1.4 Thomson's Cathode Ray Experiment

Comparing Specific Charge

Thomson demonstrated the deflected particles in magnetic and electric fields must be negatively charged
Previously, scientists had calculated the specific charge of a hydrogen ion (which as we now know, is a proton)
Thomson's specific charge for an electron was around 1800 times larger than that of the hydrogen ion, as shown in the table below

Specific charges of the electron and the hydrogen ion

	Specific Charge (C kg⁻¹)
Electron	1.76 × 10¹¹
Hydrogen Ion	9.6 × 10⁷

Thomson's Experiment

Recall that specific charge is defined as:

$\frac{particle charge}{particle mass}$

The fact that this number for an electron was much larger than for a hydrogen ion meant either:
- The electron had a much smaller mass
- The electron had a much larger magnitude of charge
Specific charge is a ratio so there was no way of knowing which was correct
- Further experiments had to be performed to calculate the charge of an electron

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Author: Dan MG

Dan graduated with a First-class Masters degree in Physics at Durham University, specialising in cell membrane biophysics. After being awarded an Institute of Physics Teacher Training Scholarship, Dan taught physics in secondary schools in the North of England before moving to SME. Here, he carries on his passion for writing enjoyable physics questions and helping young people to love physics.