MCQExams
0:0:1
CBSE
JEE
NTSE
NEET
Practice
Homework
×
CBSE Questions for Class 12 Medical Physics Nuclei Quiz 2 - MCQExams.com
CBSE
Class 12 Medical Physics
Nuclei
Quiz 2
Fusion reaction take place at high temperature because
Report Question
0%
atoms are ionized at high temperature
0%
molecules break up at high temperatures
0%
nuclei break up at high temperature
0%
kinetic energy is high enough to overcome repulsion between nuclei
Explanation
Fusion reaction takes place at temperature about $$10^7K$$.
It requires this high temperature so that nucleus are moving rapidly, so that they have high kinetic energy and can come together by overcoming repulsion between them.
The velocity of a particle is $$60$$% of velocity of light. Then the percentage increase in its mass is
Report Question
0%
$$75$$%
0%
$$40$$%
0%
$$25$$%
0%
$$60$$%
Explanation
By rest mass formula
$$m=\dfrac{mo}{\sqrt{1-\frac{V^{2}}{C^{2}}}}$$
$$=\dfrac{mo}{\sqrt{1-\frac{\left ( \dfrac{60}{100}c \right )^{2}}{C^{2}}}}$$ $$(\because V\ is\ 60\ \%\ of\ C)$$
$$=\dfrac{mo}{\sqrt{1-\dfrac{9}{25}}}$$
$$=\dfrac{mo}{\sqrt{\dfrac{16}{25}}}$$
$$=\dfrac{5mo}{4}$$
So, $$\Delta m=-mo-\dfrac{5}{4}m_{o}-m_{o}=\dfrac{m_{o}}{4}$$
So, percentage increase $$=\dfrac{m_{o}/4}{m_{o}}\times 100$$
$$=25\ \%\ $$
Nuclear fusion produces:
Report Question
0%
argon
0%
deuterium
0%
helium
0%
krypton
Explanation
Nuclear fusion reaction takes place in the core of the sun in which 2 molecules of hydrogen combine to form helium molecule.
$$\ _{1}H^{2}+\ _{1}H^{2}\rightarrow \ _{2}He^{4}$$
Hence, option C is correct.
Which of the following property of an element never changes?
Report Question
0%
Valency
0%
Atomic weight
0%
Both A and B
0%
None of the above
Explanation
The atomic weight is a characteristic property of an element and can never vary.
The valency of an element can vary. For example, when the ion is in +2 and +3 oxidation state, its valency is 2 and 3 respectively.
The binding energy of Helium nucleus is $$28$$ Mev. What is it's average binding energy per nucleon ?
Report Question
0%
102 MeV
0%
56 MeV
0%
14 MeV
0%
7 MeV
Explanation
$$ BE)_{Hc} = 28\ MeV$$ $$A \ of\ He = 4$$
$$BE)_{He} = \dfrac{28}{4} MeV$$
$$ = 7\ MeV$$
The value of 1 amu is equal to:
Report Question
0%
$$1.66\times 10^{-8}g$$
0%
$$1.66\times 10^{-4}g$$
0%
$$1.66\times 10^{-16}g$$
0%
$$1.66\times 10^{-24}g$$
Explanation
One an amu is $$\dfrac{1}{12}$$ of the mass of one carbon-12 atom.
It is equal to $$ \dfrac{1}{N_A} $$
$$= \dfrac{1}{6.022\times10^{23}} = 1.66 \times 10^{-24} g$$.
Fusion reaction takes place at very high temperature because
Report Question
0%
atoms are ionised at high temperatures
0%
molecules breakup at high temperature
0%
nuclei break up at high temperature
0%
kinetic energy is high enough to overcome repulsion between nuclei
Explanation
Fusion reactions takes place at temperature about $$10^7K$$ it requires this high temperature so that nucleus are moving at very high speed, so that they have high kinetic energy and can overcome the repulsion between nuclei and come together.
Which of the following is used as standard for determination of atomic mass unit?
Report Question
0%
$$O^{16}$$
0%
$$C^{12}$$
0%
$$H^{1}$$
0%
$$O^{17}$$
Explanation
Atomic mass of a compound is measured in atomic mass units abbreviated as amu or u. One atomic mass unit is defined as $$\frac{1}{12}^{th}$$ of mass of a single carbon-12 atom.
Critical mass is minimum mass necessary for
Report Question
0%
chain reaction
0%
fusion
0%
hydrogen bomb
0%
all of the above
Explanation
The minimum amount of fissile material needed to maintain a nuclear chain reaction.
Which one of the following properties of an element is not variable?
Report Question
0%
Valency
0%
Atomic weight
0%
Equivalent weight
0%
All of these
Explanation
Atomic weight
is specific for a particular element and does not change under any circumstances.
A certain mass of Hydrogen is changed to Helium by the process of fusion. The mass defect in fusion
reaction is 0.02866 u. The energy liberated per u is (Given 1 u = 931 MeV)
Report Question
0%
2.67 MeV
0%
26.7 MeV
0%
6.675 MeV
0%
13.35 MeV
The binding energy of a nucleus is equivalent to
Report Question
0%
the mass of nucleus
0%
the mass of proton
0%
the mass of neutron
0%
the mass defect of nucleus
Explanation
To find the binding energy, add the masses of the individual protons, neutrons, and electrons, subtract the mass of the atom, and convert that mass difference to energy.
Sun maintains its shining because of
Report Question
0%
the fission of helium
0%
chemical reactoin
0%
fusion of hydrogen nuclei
0%
burning of carbon
Explanation
The Sun produces energy by the nuclear fusion of hydrogen into helium in its core.
The major problem in harnessing nuclear energy is how to:
Report Question
0%
split nuclei
0%
sustain the reaction
0%
dispose off spent fuel safely
0%
convert nuclear energy into electrical energy
Explanation
Major problem in harnessing nuclear energy is ,how to dispose its residue which is highly radioactive in nature. It requires proper waste disposal mechanism.
Hydrogen bomb is based on
Report Question
0%
controlled chain reaction
0%
uncontrolled chain reaction
0%
nuclear fusion
0%
nuclear fission
Explanation
Hydrogen bomb is based on nuclear fusion. A large amount of nuclear energy is released by fusion of two light elements (elements with low atomic numbers). In a hydrogen bomb, two isotopes of hydrogen, deuterium(1 proton, 1 neutron) and tritium(1 proton, 2 neutron) are fused to form a nucleus of helium and a neutron. This fusion releases 17.6 MeV of energy. Also,
there is no limit on the amount of the fusion that can occur.
The ionisation energy of 10 times ionized sodium atom is
Report Question
0%
$$\frac{{13.6}}{{11}}eV$$
0%
$$\frac{{13.6}}{{112}}eV$$
0%
$$13.6 \times (11)^2 eV$$
0%
$$13.6 eV$$
Explanation
$$Na^{+10}$$
$$I.E.=13\cdot 6\times \frac {2^2}{n^2}$$
$$z=11, n=1$$
$$\therefore IE=13\cdot 6 \times (11)_{ev}^{2}$$
For the nuclie with mass number > $$100$$
Report Question
0%
binding energy of the nucleus decreases on an average as A increases
0%
binding energy of the nucleus increases on an average as A increases
0%
The two nuclei fuse to form a bigger nuclide releasing energy
0%
The nucleus essentially breaks up into two nuclides of equal mass releasing energy
Explanation
From the above figure it is clearly visible that the binding energy of the nucleus decreases on an average as A increases
Mass of one twelth of carbon atom is called atomic mass unit.
Report Question
0%
True
0%
False
Explanation
An atomic mass unit(amu) is defined as $$\frac{1}{12}^{th}$$ the mass of an atom of $$C-12$$
The relative atomic masses of all elements have been found with respect to an atom of carbon-12.
Joining of light nuclei of elements to form a heavy nucleus with the release of energy is called :
Report Question
0%
nuclear fission
0%
nuclear fusion
0%
nuclear combustion
0%
nuclear combination
Explanation
Answer is B.
In nuclear physics, nuclear fusion is a nuclear reaction in which two or more atomic nuclei collide at a very high speed and join to form a new type of atomic nucleus. During this process, matter is not conserved because some of the matter of the fusing nuclei is converted to photons (energy).
In India, a nuclear power plant is located in
Report Question
0%
Rampur
0%
Tarapur
0%
Sahranpur
0%
Kanpur
Explanation
Nuclear power plants in India are:
1. Rawatbhata, Rajasthan
2. Tarapur, Maharashtra
3. Kaiga, Karnataka
4. Kudankulam, Tamil Nadu
5. Kalpakkam, Tamil Nadu
6. Kakrapar, Gujarat
7. Narora, Uttar Pradesh
Which is the lightest element in the universe?
Report Question
0%
Helium
0%
Hydrogen
0%
Nitrogen
0%
Silicon
Explanation
$$\text {Hydrogen}$$ is the lightest element in the universe with atomic number $$1$$ and so, it has the simplest atomic structure.
The two elements, with same number of electrons but different mass number, are known as
Report Question
0%
isotopes
0%
isomers
0%
isotones
0%
isobars
Explanation
Two or more forms of the same element that contain equal numbers of protons but different numbers of neutrons in their nuclei, and hence differ in relative atomic mass but not in chemical properties; in particular, a radioactive form of an element.
The average binding energy per nucleon is maximum for the nucleus
Report Question
0%
$$_{ 2 }H^{ 4 }$$
0%
$$_{ 8 }O^{ 16 }$$
0%
$$_{ 26 }Fe^{ 56 }$$
0%
$$_{ 92 }U^{ 238 }$$
Explanation
Binding energy per nucleon increases with atomic number. The greater the binding energy per nucleon the more stable is the nucleus.
For $$_{ 26 }Fe^{ 56 }$$ number of nucleons is $$56.$$
This is most stable nucleus, since maximum energy is needed to pull a nucleon away from it.
The disposal of waste produced in a nuclear power plant is difficult because they are:
Report Question
0%
highly inflammable
0%
highly radioactive
0%
highly poisonous
0%
extremely heavy
Explanation
Waste formed as a byproduct of nuclear reactions is a nuclear waste. Nuclear wastes are highly radioactive in nature.
The mass number of sulfur atom is:
(Given: Atomic number = 16 and number of neutrons = 16)
Report Question
0%
18
0%
32
0%
24
0%
16
Explanation
Atomic number = number of protons = $$16$$
Mass number = Number of protons + number of neutrons
So the mass number of sulfur = $$32$$
Nuclear fusion reactions cannot be harnessed for productive applications because :
Report Question
0%
These reactions require very high temperature and are controllable.
0%
These reactions require very high temperature and are uncontrollable.
0%
These reactions require very low temperature and are uncontrollable
0%
These reactions require very low temperature and are controllable
Explanation
These reactions require very high temperature and are uncontrollable
Fusion reaction is the combining of atom to form heavier nuclei. Fusion reaction requires high temperature. God fusion to occur on earth a, we need a temperature of at least 100 million degree Celsius. It is also an uncontrollable reaction.
The high temperature required to initiate the nuclear fusion reaction is to overcome the _______ present between the atoms.
Report Question
0%
nuclear force
0%
electrostatic force
0%
gravitational force
0%
magnetic force
Explanation
B. Electrostatic force
Ionic bonding is the electrostatic force of attraction between positively and negatively charged ions. The ions have been produced as a result of transfer of electrons between two atoms with a large difference in electronegativity. As the ionic bond is a strong bond high energy is required to break the bond. Hence high temperature is needed to indicate the nucleus fusion reaction.
Find the value of $$x$$ in the following nuclear reaction.
$$_{7}{N}^{14} + _{2}{He}^{4} \rightarrow _{x}{O}^{17} + _{1}{H}^{1}$$
Report Question
0%
6
0%
8
0%
9
0%
7
Explanation
$$_{ 7 }{ N }^{ 14 }+_{ 2 }{ He }^{ 4 }\rightarrow _{ x }{ O }^{ 17 }+_{ 1 }{ H }^{ 1 }$$
From conservation of charge
$$7+2=x+1\\9=x+1\\x=8$$
Find $$x$$ in the following nuclear reaction.
$$_{2}{He}^{4} + _{13}{Al}^{27} \rightarrow _{x}{P}^{30} + _{0}{n}^{1}$$
Report Question
0%
14
0%
13
0%
15
0%
11
Explanation
C
$$_{2}He^{4}+_{13}Al^{27}\rightarrow _{15}P^{30}+_{o}n^{1}$$
Mass of atom expressed in atomic mass unit is :
Report Question
0%
Atomic mass
0%
Molecular mass
0%
Atomic number
0%
None of the above
Explanation
The mass of an atom expressed in amu is known as atomic mass. atomic mass unit defined as
a unit of mass used to express atomic and molecular weights, equal to one-twelfth of the mass of an atom of carbon-12.
What is the atomic mass (u) of calcium?
Report Question
0%
10
0%
20
0%
30
0%
40
Explanation
Atomic mass (u) of Calcium is 40 u.
Hence, the correct option is $$\text{D}$$
One a.m.u is defined as mass of :
Report Question
0%
$$\frac{1}{16}^{th}$$ mass of one oxygen atom
0%
$$\frac{1}{14}^{th}$$
mass of one atom of nitrogen
0%
$$\frac{1}{12}^{th}$$
mass of one carbon-12 atom
0%
None of above
Explanation
One a.m.u. is defined as mass of $$\frac1{12}^{th}$$ the mass of one carbon-12 atom.
Find $$x$$ in the following nuclear reaction.
$$_{12}{Mg}^{24} + _{2}{He}^{4} \rightarrow _{14}{Si}^{x} + _{0}{n}^{1}$$
Report Question
0%
17
0%
27
0%
37
0%
24
Explanation
From conservation of mass
$$24+4=x+1 \\x=28-1=27$$
Complete the reaction:
$$_{86}{Rn}^{220} \rightarrow _{84}{Po}^{216} + $$ __________
Report Question
0%
$$\beta$$
0%
$$\gamma$$
0%
$$\alpha$$
0%
$${H}_{1}^{1}$$
Explanation
$${ _{ 86 }{ Rn }^{ 220 }\rightarrow { _{ 84 }{ Po }^{ 216 }+{ _{ Z }{ X }^{ A } } } }\\ \because Z+84=86\quad and\quad 220=216+A\\ So,Z=2\quad and\quad A=4\\ { _{ 2 }{ \alpha }^{ 4 } }$$
So, it is $$\alpha$$ particle.
So, (C) is correct option.
Radiations from a nuclear power plant is harmful to:
Report Question
0%
environment
0%
human civilization
0%
wildlife
0%
all of the above
Explanation
Radiation from the radioactive elements pollutes not only the environment but also the civilization coming in contact with it. It causes radiation sickness which left untreated causes fatality.
State whether the given statement is True or False :
Nuclear power plants as compared to other plants can generate huge amount of electricity.
Report Question
0%
True
0%
False
Explanation
With a complete combustion or fission, approx. $$8 \ kWh$$ of power can be generated from $$1\ kg$$ of coal, approx. $$12 \ kWh$$ power from $$1\ kg$$ of mineral oil and around $$24,000,000\ kWh$$ of power from $$1 \ kg$$ of Uranium-$$235$$.
State whether the given statement is True or False :
Waste products emitted from nuclear power plants are very harmful.
Report Question
0%
True
0%
False
Explanation
Waste products formed during nuclear reactions are highly radioactive in nature and cannot be disposed into the environment directly. Wastes needs to be processed before releasing it into the environment.
1 kg of ________ can light up $$1$$ bulb for $$3\times10^4$$ years.
Report Question
0%
Uranium
0%
Halonium
0%
Neutronium
0%
Hydronium
Explanation
1 kg of coal can light the bulb for 8 hours whereas 1 kg of uranium can light the bulb for 3 x 10$$^4$$ years.
From below which are the disadvantages of nuclear energy?
Report Question
0%
High set up cost
0%
low set up cost
0%
Waste products are useful
0%
None
Explanation
Energy generation from the nuclear energy is greater than from any non-conventional sources of energy. But it has some disadvantages too, such as:
1. Cost of nuclear power plant set up is very high.
2. Waste generated are hazardous to health and environment.
Back isotopes of hydrogen has ________ proton. Fill in the blank.
Report Question
0%
0 (zero)
0%
1 (one)
0%
2 (two)
0%
3 (three)
Explanation
Each isotopes in the nucleus of hydrogen has one proton (Z = 1). but protium has no neutron, deutrium has 1 neutron and tritium has 2 neutrons.
What is the biggest advantage of nuclear energy?
Report Question
0%
It is clean.
0%
Huge amount of energy is produced.
0%
The radioactive emissions from a nuclear power plant are healthy.
0%
Nuclear power plant can be easily set up in urban areas.
Explanation
The yield of nuclear energy is enormous and hence it has extraordinary potential as an energy source. It is one of the most low-carbon energy sources.
Health hazards related to nuclear radiations are:
Report Question
0%
causing cancer.
0%
causing deformity in the body.
0%
damaging the genes of a person.
0%
All of the above.
Explanation
Nuclear radiations have several adverse effects on human health.
1. The radiations can affect body cells and this may cause cancer.
2. The radiations have the capability to damage the genes of a person and this can be transferred to the next generation.
3. The radiations can cause permanent and incurable deformity in the human body.
What is the atomic mass (u) of sodium?
Report Question
0%
22
0%
23
0%
23.5
0%
24
Explanation
Sodium is a chemical element with the symbol $$Na$$ and atomic number $$11$$.
Atomic mass (u) of sodium = $$23u$$.
It is a soft, silvery-white, highly reactive metal.
What precautions should be taken against nuclear radiations?
Report Question
0%
The radioactive elements should be kept in containers made up of thick lead walls.
0%
The people working in the plants should wear special jackets and gloves made of lead linings.
0%
The handling of the plants should be carried out from a distance.
0%
All of the above.
Explanation
Nuclear radiations are extremely harmful to humans. The following precautions should be strictly observed:
1. The radioactive elements like uranium, barium and krypton used in the nuclear reactor should be kept in containers made up of thick lead walls so that their radiations don't leak out.
2. The persons working the nuclear power plants should wear special jackets and gloves made up of lead linings so that the radiation does not penetrate into the body.
3. The handling of the plant should be carried out from a distance.
4. The nuclear power plant should be located at far off distance from the city population.
5. There should be proper arrangements for the disposal of nuclear wastes.
Identify the similarity between isotopes of the same element.
Report Question
0%
They have the same particles in the nucleus.
0%
They have the same number of neutrons.
0%
They are equally abundant in nature.
0%
They have the same number of protons
0%
They have the same mass.
Explanation
Isotopes of the same element must have same number of protons but different number of neutrons and hence they have different mass.
Also the isotopes of same element are not equally abundant in nature.
Which of the following statement best describe Nuclear fusion reaction ?
Report Question
0%
two smaller nuclei are combined into a more massive nuclei.
0%
the electrons are exchanged from one or more substances to produce a different substance, and the elements are the same in the products and reactants.
0%
the nucleus of a large atom is split into two or more fragments.
0%
the particles in the nucleus are changed, and one element is transformed into another element when particles in the nucleus are gained or lost.
0%
radiation is made.
Explanation
When two or smaller nuclei combine to form a bigger nucleus, then the reaction is known as nuclear fusion reaction. A huge amount of energy is released in such reactions.
Which of the following represents the binding energy of a nucleus:
Report Question
0%
The average energy of each nucleon
0%
The energy needed to split the nucleus into its parts
0%
The mass-energy difference between protons and neutrons
0%
The energy necessary to overcome the neutron-neutron repulsion
0%
The energy required to remove a proton from the nucleu
Explanation
It is observed that mass of a stable nucleus is always less than the total mass of constituent nucleons.This difference of mass is known as mass defect. When a nucleus is formed from the free nucleons mass defect is released in the form of energy by Einstein's mass-energy relation. This energy is used to bind the nucleons to form a nucleus therefore an equivalent amount of energy is required to split the nucleus into its parts, that is called binding energy of nucleus.
Which of the following is NOT an isotope of uranium?
Report Question
0%
$$_{92}^{236}\textrm{U}$$
0%
$$_{91}^{235}\textrm{U}$$
0%
$$_{92}^{239}\textrm{U}$$
0%
$$_{92}^{235}\textrm{U}$$
0%
$$_{92}^{238}\textrm{U}$$
Explanation
Isotopes of the same element have same atomic number but different mass number.
Atomic number of Uranium element is $$92$$.
Thus $$^{235}_{91} U$$ is not an isotope of uranium.
The binding energy per nucleon is maximum in the case
Report Question
0%
$$^{235}_{92}U$$
0%
$$^{56}_{26}Fe$$
0%
$$^{141}_{56}Ba$$
0%
$$^2_4He$$
Explanation
The above binding energy per nucleon curve clearly shows that $$^{56}_{26}Fe$$ has maximum BE per nucleon.
This value of the BE of the element accounts for it being the most stable element.
Deuterium is the most common isotope of hydrogen.
How many neutrons does it
have?
Report Question
0%
4
0%
3
0%
2
0%
1
0%
0
Explanation
Deuterium : $$^2_1H$$
Mass number: $$A = 2$$
Atomic number (or number of protons), $$Z =1$$
$$\therefore$$ Number of neutrons, $$N_n = A-Z = 2-1=1$$
0:0:1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
0
Answered
0
Not Answered
0
Not Visited
Correct : 0
Incorrect : 0
Report Question
×
What's an issue?
Question is wrong
Answer is wrong
Other Reason
Want to elaborate a bit more? (optional)
Practice Class 12 Medical Physics Quiz Questions and Answers
<
>
Support mcqexams.com by disabling your adblocker.
×
Please disable the adBlock and continue.
Thank you.
Reload page
