Presentation is loading. Please wait.

Presentation is loading. Please wait.

1) How is the mass number calculated (2).

Published byWarren Patrick Modified over 7 years ago

Similar presentations

Presentation on theme: "1) How is the mass number calculated (2)."— Presentation transcript:

1 1) How is the mass number calculated (2).
Answer Protons + Neutrons

2 2) What is the atomic number equal to. (2)
Answer Proton number or electron number

3 3) How is the Neutron number calculated (2).
Mass number - proton number = neutron number

4 4) What is an isotope (2). Ans: Atoms with same number of protons and different number of neutrons.

5 5) Which one of these is an Isotope of Element 16X8.
a) 18X8 or b) 16X9. Ans: a) 18X8

6 6) What happens to unstable radioactive isotopes (2).
Ans: Decay and give out ionising radiation

7 Answer alpha beta gamma
7) Name the three types of radiation that are produced when an unstable isotope decays (3) Answer alpha beta gamma

8 8) How do alpha, beta and gamma cause ionisation (3)
Answer Alpha particle which have a (large positive charge) pull negatively charged particles out of orbit (attraction). Beta particles (which are negative charged) repel electrons out of orbit Gamma rays transfer energy to electrons and the electrons receive the energy and break free from orbit of the atom.

9 9) Describe the properties of alpha particles (3).
Answer They are Strongly ionising Don’t penetrate much because they are stopped by a few cm of air or paper Heavy, slow moving positive charge. Contain 2 protons and 2 neutrons (equivalent to a Helium nucleus)

10 10) Describe the properties of beta particles (3).
Answer They are Moderately ionising (less then alpha) They are moderately penetrating (stopped by thin sheet of aluminium). Fast and small Equivalent to a high-speed (high-energy) electron

11 11) Describe the properties of gamma radiation (3).
Answer They are Weakly ionising They are very penetrating (only stopped by thick lead or very thick concrete). Part of the electromagnetic spectrum. Travel at the speed of light

12 12) What is nuclear fission ?
Answer It is the splitting up of uranium nuclei to release huge amounts of energy.

13 13) What is the process by which nuclear fission produces huge amounts of energy?
Answer Chain reaction

14 Absorption of neutron by a radioactive nucleus such as uranium.
14) How is a chain reaction initiated. Answer. Absorption of neutron by a radioactive nucleus such as uranium.

15 2 daughter nuclei (Krypton and Barium) 3 neutrons
15) What is produced when a chain reaction is initiated. (3) Answer 2 daughter nuclei (Krypton and Barium) 3 neutrons A huge amount of energy

16 16) Describe what happens in a chain reaction in a nuclear reactor (6)
Answer Neutron fired at an isotope of uranium-235. Neutron absorbed by uranium 235 Nuclues. Nucleus becomes unstable and splits into two daughter nuclei (which are themselves very radioactive), A lot of energy is released, and 3 more neutrons. The neutrons are absorbed by other Uranium-235, causing them to split and so on - chain reaction.

17 17) Explain how a nuclear power station produces energy (6).
Answer A high-energy neutron collides with a uranium nucleus in the fuel rod and produce 2 daughter nuclei (Krypton and Barium), 3 neutrons and a huge amount of energy. Control rods capture excess neutrons and reduce the total number of fission reactions to prevent an uncontrollable chain reaction. Thermal energy is transferred to the heat exchanger, Which converts water into steam; Which turns a turbine, Which turns the generator to produce electricity.

18 18) What is nuclear fusion ?
Answer It is the joining of two light small nuclei (e.g Hydrogen) to create a larger nucleus; in order to produce energy.

19 Produces a lot more energy compared with fission.
19) Give some advantages of fusion reactions Answer Produces a lot more energy compared with fission. No radioactive waste-only helium produced. Plenty of hydrogen around.

20 20) What are the difficulties with fusion? (3)
Answer. Fusion only happens at very high temperatures and/or pressures Because a lot of energy is needed to bring two highly positive charges together (they would normally repel). Reactors are very expensive to make as they need to withstand very high temperatures.

21 Involve particles colliding. Can cause explosions.
21) What are the similarities between fission and fusion? (4) Answer Energy is released. Involve nuclei. Involve particles colliding. Can cause explosions.

22 22) What are the key differences between fission and fusion (6).
Answer Fission involves splitting of nuclei; fusion involves joining/fusing of nuclei Fission creates smaller nuclei; fusion creates a larger one Fission creates radioactive waste; fusion creates no radioactive waste, just He nuclei Fusion produces much more energy Fission involves chain reaction. Fusion requires extremely high temperatures and pressures

23 Fusion at normal conditions not requiring the high temperatures.
23) What is cold fusion? Answer Fusion at normal conditions not requiring the high temperatures.

24 It has not been validated by other scientist; (peer reviewed).
24) Why is cold fusion not an accepted theory.(2) Answer It has not been validated by other scientist; (peer reviewed). Other scientist could not repeat their experiment to validate it. It was deemed unreliable.

25 25) Describe some of the risks of working at nuclear power plants and link with the precautions that need to be taken (6) Answer (R) Fuel rods have high temperature when removed from reactor. (P) Protective clothing and handling systems should be used. (R) Damage to rods during transport.(P) Use of canister to carry fuel rods. (R) Prolonged exposure to radiation can cause {tissue / cell} damage and {mutation / damage to DNA. (P) Minimise their exposure to the ionising radiation. (R) Increased risk due to long term exposure to raised background levels of radiation. (P) monitoring of background levels of radiation

Download ppt "1) How is the mass number calculated (2)."

Similar presentations

NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012.

NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012.
Nuclear Physics Notes CP Physics Ms. Morrison.

Nuclear Physics Notes CP Physics Ms. Morrison.
Chapter 16 – Nuclear Energy Alternate to Fossil Fuels.

Chapter 16 – Nuclear Energy Alternate to Fossil Fuels.
Radiation, nuclear fusion and nuclear fission

Radiation, nuclear fusion and nuclear fission
Drill – 10/25 1.Write the nuclear equation for the alpha decay of Pu-239 2.Write the nuclear equation for the electron capture of Argon-37.

Drill – 10/25 1.Write the nuclear equation for the alpha decay of Pu Write the nuclear equation for the electron capture of Argon-37.
Nuclear Fission Nuclear Fission is when a large nucleus splits into two smaller nuclei, releasing neutrons and energy –Heavier nuclei tend to be more.

Nuclear Fission Nuclear Fission is when a large nucleus splits into two smaller nuclei, releasing neutrons and energy –Heavier nuclei tend to be more.
Radioactivity. Contents Atomic Structure Atomic Structure Isotopes Isotopes Background Radiation Background Radiation Alpha, Beta, Gamma Alpha, Beta,

Radioactivity. Contents Atomic Structure Atomic Structure Isotopes Isotopes Background Radiation Background Radiation Alpha, Beta, Gamma Alpha, Beta,
Radioactivity Nucleus – center of the atom containing protons and neutrons –How are the protons and neutrons held together? Strong Force - an attractive.

Radioactivity Nucleus – center of the atom containing protons and neutrons –How are the protons and neutrons held together? Strong Force - an attractive.
Nuclear Chemistry. Forms of Energy The five main forms of energy are: – Heat – Chemical – Electromagnetic – Nuclear – Mechanical.

Nuclear Chemistry. Forms of Energy The five main forms of energy are: – Heat – Chemical – Electromagnetic – Nuclear – Mechanical.
P. Sci. Unit 12 Nuclear Radiation Chapter 10. Essential Questions 1)Identify four types of nuclear radiations and compare and contrast their properties.

P. Sci. Unit 12 Nuclear Radiation Chapter 10. Essential Questions 1)Identify four types of nuclear radiations and compare and contrast their properties.
1. What is radioactivity? Radioactivity is the process in which an unstable atomic nucleus emits charged particles and energy. 2. What is a radioisotope?

1. What is radioactivity? Radioactivity is the process in which an unstable atomic nucleus emits charged particles and energy. 2. What is a radioisotope?
P. Sci. Unit 12 Nuclear Radiation Chapter 10. Nuclear Radiation Strong Nuclear force – the force that holds protons and neutrons together. Remember that.

P. Sci. Unit 12 Nuclear Radiation Chapter 10. Nuclear Radiation Strong Nuclear force – the force that holds protons and neutrons together. Remember that.
Fission vs. Fusion.

Fission vs. Fusion.
Nuclear Decay.

Nuclear Decay.
Nuclear Reactions.

Nuclear Reactions.
Structure of the atom A hundred years ago people thought that the atom looked like a “plum pudding” – a sphere of positive charge with negatively charged.

Structure of the atom A hundred years ago people thought that the atom looked like a “plum pudding” – a sphere of positive charge with negatively charged.
Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion

Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion
Unit 4 Lesson 3 Nuclear Reactions

Unit 4 Lesson 3 Nuclear Reactions
• (because) like charges repel

• (because) like charges repel
Radioactivity Nucleus – center of the atom containing protons and neutrons How are the protons and neutrons held together? Strong Force - an attractive.

Radioactivity Nucleus – center of the atom containing protons and neutrons How are the protons and neutrons held together? Strong Force - an attractive.

Similar presentations

Ads by Google