NEET UG Physics Practice Paper – Set 15 (Nuclei + Semiconductor)

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NEET UG Physics Practice Paper – Nuclei & Semiconductor (Set 15)

Attempt all 30 MCQs and check your score instantly.

1. Mass defect is:

difference in mass
total mass
energy
none

2. Binding energy is:

energy to break nucleus
energy to form atom
kinetic energy
none

3. Relation:

E=mc²
V=IR
F=ma
none

4. Half life:

N/2
N
2N
none

5. Decay law:

N=N₀e⁻λt
V=IR
F=ma
none

6. Unit of activity:

Becquerel
Joule
Watt
none

7. Alpha decay emits:

helium nucleus
electron
photon
none

8. Beta decay emits:

electron
proton
neutron
none

9. Gamma rays are:

EM waves
particles
neutrons
none

10. Nuclear force is:

strong
weak
electric
none

11. Semiconductor has:

moderate conductivity
high
zero
none

12. Intrinsic semiconductor:

pure
doped
conductor
none

13. Extrinsic semiconductor:

doped
pure
none
zero

14. n-type has:

electrons
holes
none
zero

15. p-type has:

holes
electrons
none
zero

16. Diode conducts in:

forward bias
reverse
none
zero

17. Reverse bias current:

small
large
zero
none

18. Zener diode used for:

voltage regulation
amplification
none
zero

19. Logic gate AND output:

1 when both 1
always 1
always 0
none

20. OR gate output:

1 if any 1
0 always
none
zero

21. NOT gate:

inverter
amplifier
none
zero

22. Semiconductor material:

silicon
copper
iron
none

23. Doping increases:

conductivity
resistance
none
zero

24. PN junction forms:

depletion layer
conductor
none
zero

25. Barrier potential exists in:

PN junction
conductor
none
zero

26. LED emits:

light
heat
sound
none

27. Transistor used for:

amplification
cooling
heating
none

28. Collector current is:

largest
smallest
equal
none

29. Semiconductor band gap:

small
large
zero
none

30. Conductivity increases with:

temperature
pressure
none
zero

NEET UG Physics Notes – Nuclei & Semiconductor (Set 15)

This combined chapter is part of Modern Physics + Electronics, and it is one of the highest scoring sections in NEET UG. Most questions are direct formula-based, conceptual, and easy to solve with proper revision.

PART 1: NUCLEI

1. Atomic Structure Basics

Nucleus contains protons and neutrons
Atomic number (Z) → number of protons
Mass number (A) → protons + neutrons

2. Mass Defect

Mass defect is the difference between: $\text{Mass defect} = (\text{sum of nucleon masses}) – (\text{actual mass})$ Mass defect=(sum of nucleon masses)−(actual mass)

Reason:

Some mass converts into energy

3. Binding Energy

Energy required to separate nucleus into nucleons. $E = \Delta m \, c^2$ E=Δmc2

Key Insight:

Higher binding energy → more stable nucleus

4. Binding Energy Curve

Important Observations:

Maximum stability near iron (Fe)
Light nuclei → fusion
Heavy nuclei → fission

5. Radioactive Decay Law

$N = N_0 e^{-\lambda t}$ N=N0e−λt

Where:

$\lambda$ λ = decay constant

6. Half-Life (T₁/₂)

Time for number of nuclei to reduce to half. $T_{1/2} = \frac{\ln 2}{\lambda}$ T1/2=λln2

7. Activity

$A = \lambda N$ A=λN

Unit:

Becquerel (Bq)

8. Types of Radioactive Decay

Alpha Decay (α):

Emits helium nucleus
Mass decreases by 4

Beta Decay (β):

Emits electron
Neutron → proton

Gamma Decay (γ):

Emits EM radiation
No change in mass or charge

9. Nuclear Force

Very strong and short-range
Independent of charge

10. Nuclear Energy

Fission:

Heavy nucleus splits
Example: Uranium

Fusion:

Light nuclei combine
Occurs in sun

PART 2: SEMICONDUCTORS

11. Conductors vs Semiconductors

Type	Conductivity
Conductor	High
Semiconductor	Moderate
Insulator	Low

12. Intrinsic Semiconductor

Pure semiconductor (Si, Ge)
Equal electrons and holes

13. Extrinsic Semiconductor

Doped semiconductor:

n-type:

Majority carriers → electrons

p-type:

Majority carriers → holes

14. PN Junction

Formed by joining p-type and n-type.

Depletion Region:

Region with no charge carriers

15. Barrier Potential

Potential difference across junction
Prevents charge flow

16. Biasing of Diode

Forward Bias:

Allows current flow

Reverse Bias:

Blocks current (small leakage)

17. Zener Diode

Use:

Voltage regulation

18. LED (Light Emitting Diode)

Emits light when forward biased
Used in displays

19. Transistor

Uses:

Amplification
Switching

Currents:

$I_E = I_B + I_C$ IE=IB+IC

20. Logic Gates

AND Gate:

Output 1 only if both inputs 1

OR Gate:

Output 1 if any input 1

NOT Gate:

Inverts input

21. Band Theory

Semiconductors:

Small band gap

Effect of Temperature:

Conductivity increases with temperature

22. Important NEET Formulas

$E = mc^2$ E=mc2
$N = N_0 e^{-\lambda t}$ N=N0e−λt
$T_{1/2} = \ln2/\lambda$ T1/2=ln2/λ
$A = \lambda N$ A=λN

23. Common Mistakes

❌ Confusing alpha, beta, gamma changes
❌ Forgetting half-life relation
❌ Mixing n-type and p-type carriers
❌ Ignoring diode biasing concept

24. Quick Revision Tips

Binding energy = stability indicator
Decay is exponential
Semiconductor → current via electrons & holes
Diode works only in forward bias

Conclusion

Nuclei + Semiconductor is a very high-scoring and easy section in NEET.

Focus on:

Radioactive decay formulas
Nuclear reactions
PN junction concepts
Logic gates

👉 With proper revision, you can secure full marks in this section easily.