Presentation is loading. Please wait.

Presentation is loading. Please wait.

NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012.

Published byEdith Pope Modified over 8 years ago

Similar presentations

Presentation on theme: "NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012."— Presentation transcript:

1 NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012

2 Nuclear Fusion  To understand nuclear fusion & fission Thursday, May 26, 2016

3 On-line Lessons: The Birth and Death of Stars What are Stars?  Stars are large balls of hot gas.  They look small because they are a long way away, but in fact many are bigger and brighter than the Sun.  The heat of the star is made in the centre by nuclear fusion reactions.  There are lots of different colours

4 The Birth and Death of Stars Stars are made (or “born”) in giant clouds of dust and gas.  Sometimes part of the cloud shrinks because of gravity.  As it shrinks it becomes hotter and when it is hot enough, nuclear reactions can start in the centre…..  … and A Star is Born!

5 The Birth and Death of Stars Watching stars being born The Bubble Nebula Here you can see the old dust and gas being blown away by the heat of the new star. https://www.youtube.com/watch? v=9EnBBIx6XkM

6 The Birth and Death of Stars The Death of A Star When a star begins to exhaust its hydrogen supply, its life nears an end. The first sign of a star's old age is a swelling and reddening of its outer regions. Such an aging, swollen star is called a red giant. When all its fuel has been exhausted, a star cannot generate sufficient pressure at its center to balance the crushing force of gravity https://www.youtube.com/watch?v=44BwqpthXB ghttps://www.youtube.com/watch?v=44BwqpthXB g

7 Nuclear Fusion  Why do stars shine?  Stars release energy as a result of fusing small nuclei such as hydrogen to form larger nuclei  The energy released by this process is vast – water contains lots of hydrogen atoms

8 Fusion Reactions  2 small nuclei release energy when they are fused together to form a single, larger nucleus  Energy must be supplied to create bigger nuclei

9 Nuclear Fusion & Stars  The Sun consists of about 75% hydrogen (H) and 25% helium (He)  The core is so hot that it consists of a ‘plasma’ of bare nuclei with no electrons – these nuclei move about and fuse together when they collide  When they fuse they release energy…

10 Nuclear Fusion & Stars  Nuclear fusion involves two atomic nuclei joining to make a large nucleus – energy is released when this happens  The Sun and other stars use nuclear fusion to release energy H + 1 1 H 2 1 He 3 2

11 Nuclear Fusion On Earth  It is technically very difficult to produce nuclear fusion on Earth  This temperature is needed because 2 nuclei approaching each other will try and repel each other (due to the positive charge) – move them fast enough (i.e. with temperature) then they will overcome this force of repulsion, and fuse

12 Nuclear Fusion On Earth  There are some experimental reactors, however the process is extremely complicated and currently they only work for a few minutes: -

13 Powerful Future  Practical fusion reactions could meet all our energy needs: -  The energy released could be used to then generate electricity

14 Hydrogen Bomb  A hydrogen bomb is a uranium bomb, surrounded by the H isotope  When the uranium bomb explodes it makes the surrounding hydrogen fuse and release even more energy – a single hydrogen bomb would destroy London 2 1

15 Hydrogen Bomb  https://www.youtube.com/watch?v=qjnm3V0xYjI https://www.youtube.com/watch?v=qjnm3V0xYjI 2 1

16 Nuclear Fission  Energy is released in a nuclear reactor as a result of nuclear fission  The nucleus of an atom of a fissionable substance splits into two smaller ‘fragment’ nuclei  This event can cause other fissionable nuclei to split, leading to a chain reaction of fission events

17 Splitting Atoms  Fission is another word for splitting (splitting a nucleus is called nuclear fission)  The nucleus splits into two smaller nuclei, which are radioactive  Two or three more neutrons are released  Some energy is released

18 Chain  The additional neutrons released may also hit other uranium or plutonium nuclei and cause them to split – even more neutrons are then released, which in turn can split more nuclei  This is called a chain reaction – in nuclear reactors the chain reaction is controlled, stopping it going too fast

19 Chain Reaction Krypton Barium n n n n Uranium More decays

Download ppt "NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012."

Similar presentations

The Birth and Death of Stars

The Birth and Death of Stars
A journey to the stars.

A journey to the stars.
Life Cycle of a Star.

Life Cycle of a Star.
NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012.

NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012.
Nuclear Energy Nuclear Reactions Nuclear Fission / Nuclear Fusion Harnessing the Power of the Nucleus.

Nuclear Energy Nuclear Reactions Nuclear Fission / Nuclear Fusion Harnessing the Power of the Nucleus.
40 Nuclear Fission and Fusion Nuclear fission and nuclear fusion reactions release huge amounts of energy.

40 Nuclear Fission and Fusion Nuclear fission and nuclear fusion reactions release huge amounts of energy.
Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion

Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion
SPS3 Students will distinguish the characteristics and components of radioactivity.

SPS3 Students will distinguish the characteristics and components of radioactivity.
Question of the Day Rules You must work alone You may use your periodic table today You have 6 minutes to complete the QOD Good luck!!

Question of the Day Rules You must work alone You may use your periodic table today You have 6 minutes to complete the QOD Good luck!!
Nuclear Fission and Fusion

Nuclear Fission and Fusion
Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.
Nuclear Fission and Fusion

Nuclear Fission and Fusion
THE STAR OF OUR SOLAR SYSTEM Solar radiation travels from the sun to the earth at the speed of light. The speed of light is 300 000 km/s.

THE STAR OF OUR SOLAR SYSTEM Solar radiation travels from the sun to the earth at the speed of light. The speed of light is km/s.
THE LIFE CYCLES OF STARS. In a group, create a theory that explains: (a)The origin of stars Where do they come from? (b)The death of stars Why do stars.

THE LIFE CYCLES OF STARS. In a group, create a theory that explains: (a)The origin of stars Where do they come from? (b)The death of stars Why do stars.
Unit 8 Section 2: Nuclear Reactions

Unit 8 Section 2: Nuclear Reactions
Lesson Objectives Nuclear Fusion Keywords: proton; neutron; fusion; hydrogen; helium To know what is nuclear fusion Grade C To describe nuclear fusion.

Lesson Objectives Nuclear Fusion Keywords: proton; neutron; fusion; hydrogen; helium To know what is nuclear fusion Grade C To describe nuclear fusion.
Nuclear Energy.

Nuclear Energy.
Nuclear Fusion Nuclear Fusion is a process in which two or more smaller nuclei collide and form a new, larger nucleus. In some fusion reactions, a neutron,

Nuclear Fusion Nuclear Fusion is a process in which two or more smaller nuclei collide and form a new, larger nucleus. In some fusion reactions, a neutron,
Nuclear Fission & Fusion Objectives: Describe what happens in a nuclear chain reaction. Explain the use of water in the storage of spent fuel rods. Distinguish.

Nuclear Fission & Fusion Objectives: Describe what happens in a nuclear chain reaction. Explain the use of water in the storage of spent fuel rods. Distinguish.
 Splitting of a nucleus into smaller fragments  Happens when they are bombarded with neutrons  Releases ENORMOUS amts of energy!  Only U-235 & Pu-239.

 Splitting of a nucleus into smaller fragments  Happens when they are bombarded with neutrons  Releases ENORMOUS amts of energy!  Only U-235 & Pu-239.

Similar presentations

Ads by Google