Published 2/2023MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHzLanguage: English | Size: 870.92 MB | Duration: 1h 14m

Rutherfords Scattering Expent, Radioactivity, Half-life, Applications and Safety

What you'll learn

Describe the structure of an atom in terms of a positively charged nucleus and negatively charged electrons in orbit around the nucleus

Describe the structure of an atom in terms of a positively charged nucleus and negatively charged electrons in orbit around the nucleus

Describe how the scattering of alpha (α) particles by a sheet of thin metal supports the nuclear model of the atom

Describe the composition of the nucleus in terms of protons and neutrons

State the relative charges of protons, neutrons and electrons as +1, 0 and –1 respectively

Define the terms proton number (atomic number) Z and nucleon number (mass number) A and be able to calculate the number of neutrons in a nucleus

Use the nuclide notation

Explain what is meant by an isotope and state that an element may have more than one isotope

Describe the processes of nuclear fission and nuclear fusion as the splitting or joining of nuclei, to include the nuclide equation and qualitative description

Know the relationship between the proton number and the relative charge on a nucleus

Know the relationship between the nucleon number and the relative mass of a nucleus

Know what is meant by background radiation

Know the sources that make a significant contribution to background radiation

Know that ionising nuclear radiation can be measured using a detector connected to a counte

Use count rate measured in counts/s or counts/minute

Use measurements of background radiation to detee a corrected count rate

Describe the emission of radiation from a nucleus as spontaneous and random in direction

Identify alpha (α), beta (β) and gamma (γ) emissions from the nucleus

Describe the deflection of α-particles, β-particles and γ-radiation in electric fields and magnetic fields

Explain their relative ionising effects with reference to: (a) kinetic energy (b) electric charge

Know that radioactive decay is a change in an unstable nucleus that can result in the emission of α-particles or β-particles and/or γ-radiation

State that during α-decay or β-decay, the nucleus changes to that of a different element

Know that isotopes of an element may be radioactive due to an excess of neutrons in the nucleus and/or the nucleus being too heavy

Describe the effect of α-decay, β-decay and γ-emissions on the nucleus, including an increase in stability

Use decay equations, using nuclide notation, to show the emission of α-particles, β-particles and γ-radiation

Define the half-life of a particular isotope as the taken for half the nuclei of that isotope in any sample to decay

Calculate half-life from data or decay curves from which background radiation has not been subtracted

Explain how the type of radiation ted and the half-life of an isotope detee which isotope is used for applications

State the effects of ionising nuclear radiations on living things, including cell death, mutations and cancer

Describe how radioactive materials are moved, used and stored in a safe way

Explain safety precautions for all ionising radiation

Requirements

Basic understanding of atoms and the periodic table

Description

Hello, I am Kaleem Akbar and welcome to the IGCSE Physics course on Atomic Physics. In this module, you will learn about the fundamental properties of atoms, nuclear physics, and the phenomenon of radioactive decay. The course covers the topics of half-life, alpha, beta, and gamma radiation, and the safety precautions necessary when working with these forms of radiation.You will explore the applications of radioactive decay in various fields, including medicine, industry, and agriculture, and how it is used to solve real-world problems. The properties of isotopes will also be discussed in detail, providing you with a thorough understanding of the role they play in nuclear chemistry and industry.The course content is designed to help you develop a clear understanding of atomic physics and its practical applications. It includes engaging and interactive lectures, practical exercises, and quizzes to help you reinforce your learning.By the end of the course, you will have a solid grasp of the concepts related to atomic physics and how they relate to the world around us. You will be equipped with the knowledge and skills necessary to excel in your IGCSE Physics exam and beyond. So, enroll now and start your journey towards mastering atomic physics!

Overview

Section 1: Nuclear Physics

Lecture 1 Course Overview

Section 2: Nuclide Notation and Atomic Structure

Lecture 2 Atomic Structure

Section 3: Rutherfords Scattering Expent

Lecture 3 Rutherfords Expent

Lecture 4 Rutherfords Conclusions

Section 4: Radiation and Detection

Lecture 5 Alpha, Beta and Gamma

Lecture 6 Detection of Radioactive Sources

Section 5: Radioactive Decay and Half Life

Lecture 7 Radioactive Decay

Lecture 8 Half Life

Section 6: Deflection in Electric and Magnetic Fields

Lecture 9 Deflection in Electric and Magnetic Fields

Section 7: Background Radiation, Safety and Applications

Lecture 10 Background Radiation and the Effects of Radiation

Lecture 11 Applications of Radiation

IGCSE and GCSE Physics students looking to enhance their knowledge of Atomic Physics and Radioactivity.

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