Photo AI

A fluorescent tube contains a gas - AQA - A-Level Physics - Question 15 - 2022 - Paper 1

Question icon

Question 15

A-fluorescent-tube-contains-a-gas-AQA-A-Level Physics-Question 15-2022-Paper 1.png

A fluorescent tube contains a gas. The coating of the tube. A becomes ionised by the gas and emits photons of ultraviolet light. B absorbs photons of ultraviolet ... show full transcript

Worked Solution & Example Answer:A fluorescent tube contains a gas - AQA - A-Level Physics - Question 15 - 2022 - Paper 1

Step 1

C absorbs photons of ultraviolet light from the gas and emits photoelectrons.

96%

114 rated

Answer

The correct answer is C, which discusses the photoelectric effect. In a fluorescent tube, a gas is ionized and emits ultraviolet light. The coating absorbs these ultraviolet photons, leading to the emission of photoelectrons, which is a fundamental principle of how fluorescent lighting operates.

Join the A-Level students using SimpleStudy...

97% of Students

Report Improved Results

98% of Students

Recommend to friends

100,000+

Students Supported

1 Million+

Questions answered

Other A-Level Physics topics to explore

Use of SI Units & Their Prefixes

Physics - AQA

Limitation of Physical Measurements

Physics - AQA

Atomic Structure & Decay Equations

Physics - AQA

Classification of Particles

Physics - AQA

Conservation Laws & Particle Interactions

Physics - AQA

The Photoelectric Effect

Physics - AQA

Energy Levels & Photon Emission

Physics - AQA

Longitudinal & Transverse Waves

Physics - AQA

Stationary Waves

Physics - AQA

Interference

Physics - AQA

Diffraction

Physics - AQA

Refraction

Physics - AQA

Scalars & Vectors

Physics - AQA

Moments

Physics - AQA

Equations of Motion

Physics - AQA

Newtons Laws of Motion

Physics - AQA

Linear Momentum & Conservation

Physics - AQA

Work, Energy & Power

Physics - AQA

Bulk Properties of Solids

Physics - AQA

The Young Modulus

Physics - AQA

Current–Voltage Characteristics

Physics - AQA

Resistance & Resistivity

Physics - AQA

Circuits & The Potential Divider

Physics - AQA

Electromotive Force & Internal Resistance

Physics - AQA

Circular Motion

Physics - AQA

Simple Harmonic Motion

Physics - AQA

Forced Vibrations & Resonance

Physics - AQA

Thermal Energy Transfer

Physics - AQA

Ideal Gases

Physics - AQA

Molecular Kinetic Theory Model

Physics - AQA

Gravitational Fields

Physics - AQA

Gravitational Potential

Physics - AQA

Orbits of Planets & Satellites

Physics - AQA

Electric Fields

Physics - AQA

Electric Potential

Physics - AQA

Capacitance

Physics - AQA

Capacitor Charge & Discharge

Physics - AQA

Magnetic Fields

Physics - AQA

Electromagnetic Induction

Physics - AQA

Alternating Currents & Transformers

Physics - AQA

Alpha, Beta & Gamma Radiation

Physics - AQA

Radioactive Decay

Physics - AQA

Nuclear Instability & Radius

Physics - AQA

Nuclear Fusion & Fission

Physics - AQA

Telescopes

Physics - AQA

Classification of Stars

Physics - AQA

Cosmology

Physics - AQA

Rotational Dynamics

Physics - AQA

Thermodynamics & Engines

Physics - AQA

The Discovery of the Electron

Physics - AQA

Special Relativity

Physics - AQA

;