Multiple Choice Submissions
Details can be found in the Notes section below
Question 6
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Multiple Choice Submissions
Details can be found in the Notes section below
Question 7
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Multiple Choice Submissions
Details can be found in the Notes section below
Question 8
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Multiple Choice Submissions
Details can be found in the Notes section below
Question 9
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Multiple Choice Submissions
Details can be found in the Notes section below
Question 10
Multiple Choice Submissions
Details can be found in the Notes section below
Question 11
Question 12
joshua Short Answer Submissions (all)a nuclear reaction in which atomic nuclei of low atomic number fuse to
form a heavier nucleus with the release of energy.
Jason Lau A nuclear reaction in which a heavy nucleus splits spontaneously, with
the release of energy.
Justin Process of combining to lighter nuclei to form a heavier nucleus and
releasing a large amount of energy
Syed Adil Small and light nuclei fuse to form a heavier nucleus while releasing large
amount of energy
jonasong a nuclear reaction in which atomic nuclei of low atomic number fuse to
form a heavier nucleus with the release of energy.
Jun Jie Atomic nuclei fuse to form a heavier nucleus with the release of energy
Short Answer Submissions (all)
Lazarus Fusion of particles.....................
Jabez combining of two lighter nuclei to form a heavier nucleus while releasing
a large amount of energy
LOH KHAI LUN Unstable nuclear spit into two nuclei
Alvin Lim A nuclear reaction when heavy nucleus splits into two or more lighter
Lester nuclei while releasing a large of amount of energy
sheeeshhhh
2 small and light nuclei combine together to form a bigger nucleus and
release energy at the same time
nuclear reaction in which small and light nuclei fuse to form a heavier
nucleus while releasing a large amount of energy
Short Answer Submissions (all)Gabriel
small and light nuclei fuse to form heavier nucleus while release energy
YAshvir singh A reaction where to nuclei fuse together under
Vishal high heat energy to form one helium atom and release neutron and
KESH heat energy.
SIM YU HIN
SIM YU HEN Is a nuclear reaction in which a small and light nuclei to form a heavier
nucleus while releasing a large amount of energy.
a nuclear reaction in which a heavy nucleus splits spontaneously or on
impact with another particle, with the release of energy.
Nuclear fusion is a reaction through which two or more light nuclei
collide to form a heavier nucleus.
nuclear fusion is a nuclear reaction which small and light nuclei fuse to
form a heavier nucleus while releasing a large amount of energy
Short Answer Submissions (all)
Ho.Soon.Kit <3 Nuclear fusion is nuclear reaction when small and light nuclei combines
Sivaporranan forming heavier nucleus while releasing large energy.
ASHWIN
nuclear fusion is a nuclear reaction in which small and light nuclei fuse to
form a heavier nucleus while releasing a large amount of energy
Nuclear fission is a nuclear reaction where heavy nucleus split into two or
more lighter nuclei which release high amount of energy
Question 12
[5 marks]
Short Answer Submissions (all)
Isaac Newton .
The number of neutrons released in equation 10.1higher,the energy
Cheong Zheng Jie release in equation 10.1 higher,the mass in equation 10.1 higher.the
higher the energy release the bigger the mass
Jun Jie The energy released in equation 1 is greater than the energy released in
equation 2
The mass of equation 1 is greater than equation 2
The greater the mass the greater the energy released
Nuclear fusion and release of energy
YAshvir singh IN equation 10.1 and equation 10.2 same number of neutron is released.
The energy released in equation 10.1 is higher than the energy released
equation 10.2 . The mass defect of equation 10.1 is bigger than equation
10.2 . The physics priciple of this phenomena is called nuclear fission.
Short Answer Submissions (all)
Danesh the number of neutrons release in equation 10.1 is the same with
Alvin Lim equation 10.2. the energy released by equation 10.1 i greater compare to
Jason Lau equation 10.2.the mass defect in equation 10.1 is greater compare to
equation 10.2. thus the greater the energy released the greater the mass
defect
- the number of neutrons released are same
- the energy released in equation 10.1 is greater than equation 10.2
- the mass defect in equation 10.1 is greater than equation 10.2
- the higher the mass defect, the higher the eneegy released
- Nuclear Fusion
he mass defect can be calculated using Equation 10-1,full accuracy of
mass measurements because the difference in mass is small compared to
the mass of the atom.
Short Answer Submissions (all)
Syed Adil -10.1 and 10.2 release the same amount of neutrons.
Lester -the energy released in 10.1 is higher than 10.2.
SIM YU HIN -mass defect in 10.1 is higher than 10.2
-the higher the mass defect the higher the energy produced.
-number of neutrons released in both equations are equal
-energy released in equation 10.1 is greater than equation 10.2
-mass defect in equation 10.1 is greater than equation 10.2
- the greater the mass defect, the greater the energy released
- E=mc²
The number of neutrons released in E10.1 is more than E10.2. The energy
released of E10.1 is more than E10.2. The mass defect of E10.1 is more
than E10.2. The higher the quantity of energy released, the higher the
mass defect. Nuclear fusion
joshua Short Answer Submissions (all)The number of neutrons released in equation 10.1 is less compared to in
equation10.2 where as the quantity of energy of equation 10.1 is more
compared to equation 10.2. The higher the Number of neutron released
the higher the higher the quantity of energy released.
Justin -The number of neutrons released in equation 10.1 is equal to equation
10.2
- The energy released in equation 10.1 is higher than that in equation
10.2
-the mass defect in equation 10.1 is higher than that in equation 10.2
-The quantity of energy released increases when the mass defect
increases
-Principle of conservation of energy
Sivaporranan The number of neutrons released in 10.1 and 10.2 is the same. The
energy released in 10.1 is bigger than 10.2. The mass defect in in 10.1 is
bigger than 10.2. The bigger the mass defect , the bigger the energy
released. Physics principle involved is nuclear fusion.
The number of neutrons released for both equation are the same, the
Mathaan A/L energy released for equation 10.1 is higher than in equation 10.2 and the
Short Answer Submissions (all)Barathiraja
mass defect for equation 10.2 is higher than in equation 10.1. The higher
the energy released, the lower the mass defect. Nuclear fusion.
sheeeshhhh Number of nutrons released in 10.1 is more than 10.2. energy released in
10.1 is more then 10.2.
Mass defect in 10.1 is more than 10.2. The higher the quantity of energy
released, the greater the mass defect. NUCLEAR FISSION
Thishan The number of neutrons released in equation 10.1 is higher than in
equation 10.2. The energy released in equation 10.1 is higher than in
equation 10.2. The mass defect in equation 10.1 is lower than I equation
10.2. The higher the quantity of energy released the lower the mass
defect. Nuclear fission
SIM YU HEN the number of neutrons released, the energy released and the mass
defect in equation 10.1 is higher than equation 10.2. The higher the
quantity of energy released, the higher the mass defect.
Short Answer Submissions (all)
ASHWIN -Number of neutrons in both diagram is the same
LOH KHAI LUN -Energy released in diagram 10.1 is greater than diagram 10.2
-mass defect in diagram 10.1 is more than diagram 10.2
-quantity of energy released is directly proportional to mass defect
-nuclear fission
The number release of neutron in 10.2 Is higher than 10.1. Principle is
Nuclear fussion
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