Comprehensive set of Multiple Choice Questions (MCQs) PHY 11th Class of FBISE

Providing a comprehensive set of Multiple Choice Questions (MCQs) with answers for all chapters of the FBISE (Federal Board of Intermediate and Secondary Education) 11th-class Physics syllabus is challenging due to the extensive nature of the syllabus and copyright restrictions on reproducing exact questions from textbooks or past papers. However, I can offer a curated selection of sample MCQs covering key concepts from each of the 11 chapters, designed to align with the FBISE syllabus and exam patterns. These MCQs are created to reflect the style and difficulty level of FBISE exams, based on the syllabus and common question types found in resources like past papers and educational websites (e.g., www.taleemcity.com, www.ilmistarsacademy.com).

Below, I provide 3 sample MCQs per chapter (totaling 33 MCQs) with answers and brief explanations, covering all chapters of the FBISE 11th-class Physics syllabus. For a complete set of MCQs, I recommend accessing resources like the FBISE past papers (www.fbise.edu.pk), www.taleemcity.com, or www.downloadclassnotes.com, which offer downloadable PDFs with solved MCQs. If you need guidance on accessing specific resources or want MCQs for a particular chapter, let me know!

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FBISE 11th-Class Physics Syllabus Chapters

1. Measurements
2. Vectors and Equilibrium
3. Motion and Force
4. Work and Energy
5. Circular Motion
6. Fluid Dynamics
7. Oscillations
8. Waves
9. Physical Optics
10. Optical Instruments
11. Heat and Thermodynamics

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Sample MCQs with Answers and Explanations

Chapter 1: Measurements

1. What is the SI unit of luminous intensity?
   • A) Watt
   • B) Candela
   • C) Lumen
   • D) Lux
   • Answer: B) Candela
   • Explanation: The SI unit of luminous intensity is candela, which measures the brightness of light emitted from a source in a specific direction.
2. The dimensions of impulse are the same as that of:
   • A) Force
   • B) Momentum
   • C) Energy
   • D) Power
   • Answer: B) Momentum
   • Explanation: Impulse is force × time (F × t), with dimensions [M L T⁻²][T] = [M L T⁻¹], which matches the dimensions of momentum (mass × velocity = [M][L T⁻¹]).
3. The number of significant figures in 0.00780 is:
   • A) 2
   • B) 3
   • C) 4
   • D) 5
   • Answer: B) 3
   • Explanation: In 0.00780, the significant figures are 7, 8, and 0 (the trailing zero after 8 is significant). Leading zeros are not significant.

Chapter 2: Vectors and Equilibrium

4. The angle between two vectors of equal magnitude is 60°. If their resultant has the same magnitude as either vector, the angle between the resultant and one vector is:
   • A) 30°
   • B) 45°
   • C) 60°
   • D) 90°
   • Answer: A) 30°
   • Explanation: For vectors A and B with equal magnitude, if the resultant R = A = B and the angle between A and B is 60°, the angle between R and A is 30° (derived using vector addition and cosine rule).
5. A body is in equilibrium if the vector sum of all forces acting on it is:
   • A) Maximum
   • B) Minimum
   • C) Zero
   • D) Non-zero
   • Answer: C) Zero
   • Explanation: For a body in equilibrium, the net force must be zero (first condition of equilibrium).
6. Torque is maximum when the angle between force and lever arm is:
   • A) 0°
   • B) 45°
   • C) 90°
   • D) 180°
   • Answer: C) 90°
   • Explanation: Torque = F × r × sinθ. It is maximum when sinθ = 1, i.e., θ = 90°.

Chapter 3: Motion and Force

7. A projectile is launched at an angle of 45°. At the highest point, its:
   • A) Horizontal velocity is zero
   • B) Vertical velocity is zero
   • C) Acceleration is zero
   • D) Speed is maximum
   • Answer: B) Vertical velocity is zero
   • Explanation: At the highest point, the vertical component of velocity becomes zero, while the horizontal component remains constant.
8. Newton’s second law is expressed as:
   • A) F = ma
   • B) F = mv
   • C) F = m/t
   • D) F = m²a
   • Answer: A) F = ma
   • Explanation: Newton’s second law states that force is the product of mass and acceleration.
9. The momentum of a body is doubled. Its kinetic energy will:
   • A) Remain same
   • B) Double
   • C) Quadruple
   • D) Halve
   • Answer: C) Quadruple
   • Explanation: Kinetic energy K = (p²)/(2m). If momentum p doubles, K becomes (2p)²/(2m) = 4p²/(2m) = 4K.

Chapter 4: Work and Energy

10. Work done is maximum when the angle between force and displacement is:
    • A) 0°
    • B) 90°
    • C) 180°
    • D) 45°
    • Answer: A) 0°
    • Explanation: Work = F × d × cosθ. It is maximum when cosθ = 1, i.e., θ = 0°.
11. The unit of power is equivalent to:
    • A) J/s
    • B) J·s
    • C) N/m
    • D) N·m
    • Answer: A) J/s
    • Explanation: Power = work/time = joule/second = watt = J/s.
12. A body of mass 2 kg is lifted 5 m vertically. The work done against gravity (g = 10 m/s²) is:
    • A) 50 J
    • B) 100 J
    • C) 200 J
    • D) 25 J
    • Answer: B) 100 J
    • Explanation: Work = mgh = 2 × 10 × 5 = 100 J.

Chapter 5: Circular Motion

13. The centripetal force on an object in circular motion is provided by:
    • A) Gravitational force only
    • B) Any real force
    • C) Frictional force only
    • D) Normal force only
    • Answer: B) Any real force
    • Explanation: Centripetal force can be provided by any real force (e.g., tension, gravity, friction) depending on the context.
14. The angular velocity of a body in circular motion is measured in:
    • A) m/s
    • B) rad/s
    • C) rev/min
    • D) m/s²
    • Answer: B) rad/s
    • Explanation: Angular velocity is measured in radians per second (rad/s).
15. A satellite orbits the Earth. Its centripetal force is provided by:
    • A) Thrust
    • B) Gravitational force
    • C) Frictional force
    • D) Normal force
    • Answer: B) Gravitational force
    • Explanation: The gravitational force between the Earth and the satellite provides the centripetal force for orbital motion.

Chapter 6: Fluid Dynamics

16. Bernoulli’s equation is based on the conservation of:
    • A) Mass
    • B) Momentum
    • C) Energy
    • D) Charge
    • Answer: C) Energy
    • Explanation: Bernoulli’s equation represents the conservation of mechanical energy in fluid flow.
17. The SI unit of viscosity is:
    • A) N·s/m²
    • B) N/m²
    • C) kg/m·s
    • D) N·m/s
    • Answer: A) N·s/m²
    • Explanation: Viscosity is measured in pascal-second (Pa·s = N·s/m²).
18. In streamline flow, the fluid particles move in:
    • A) Random paths
    • B) Circular paths
    • C) Parallel paths
    • D) Zigzag paths
    • Answer: C) Parallel paths
    • Explanation: Streamline flow is characterized by fluid particles moving in parallel, non-turbulent paths.

Chapter 7: Oscillations

19. The time period of a simple pendulum depends on:
    • A) Mass of the bob
    • B) Length of the string
    • C) Amplitude
    • D) Material of the bob
    • Answer: B) Length of the string
    • Explanation: T = 2π√(L/g). The time period depends on length (L) and gravity (g), not mass or amplitude.
20. In simple harmonic motion, acceleration is maximum at:
    • A) Equilibrium position
    • B) Extreme position
    • C) Midpoint
    • D) Any position
    • Answer: B) Extreme position
    • Explanation: In SHM, a = -ω²x. Acceleration is maximum at the extreme positions where displacement x is maximum.
21. The frequency of a wave is 2 Hz. Its time period is:
    • A) 0.5 s
    • B) 2 s
    • C) 1 s
    • D) 4 s
    • Answer: A) 0.5 s
    • Explanation: T = 1/f = 1/2 = 0.5 s.

Chapter 8: Waves

22. The speed of a wave is given by:
    • A) v = fλ
    • B) v = f/λ
    • C) v = λ/f
    • D) v = f²λ
    • Answer: A) v = fλ
    • Explanation: Wave speed = frequency × wavelength.
23. Stationary waves are formed due to:
    • A) Refraction
    • B) Diffraction
    • C) Interference
    • D) Polarization
    • Answer: C) Interference
    • Explanation: Stationary waves result from the interference of two waves of the same frequency traveling in opposite directions.
24. The Doppler effect is observed when:
    • A) Source and observer are stationary
    • B) Source and observer are moving relative to each other
    • C) Medium is moving
    • D) Wave speed changes
    • Answer: B) Source and observer are moving relative to each other
    • Explanation: The Doppler effect occurs due to relative motion between the source and observer, changing the observed frequency.

Chapter 9: Physical Optics

25. Young’s double-slit experiment demonstrates:
    • A) Diffraction
    • B) Interference
    • C) Refraction
    • D) Polarization
    • Answer: B) Interference
    • Explanation: The experiment shows interference patterns due to the superposition of light waves from two slits.
26. The fringe spacing in Young’s double-slit experiment increases if:
    • A) Wavelength decreases
    • B) Slit separation increases
    • C) Distance to screen decreases
    • D) Wavelength increases
    • Answer: D) Wavelength increases
    • Explanation: Fringe spacing β = λD/d. It increases with wavelength (λ).
27. The colors in thin films are due to:
    • A) Diffraction
    • B) Interference
    • C) Refraction
    • D) Dispersion
    • Answer: B) Interference
    • Explanation: Colors in thin films result from the interference of light reflected from the top and bottom surfaces.

Chapter 10: Optical Instruments

28. The magnifying power of a simple microscope is maximum when the image is formed at:
    • A) Infinity
    • B) Near point
    • C) Far point
    • D) Focal point
    • Answer: B) Near point
    • Explanation: Magnification is maximum when the image is at the near point (typically 25 cm).
29. The objective lens of a telescope has:
    • A) Short focal length
    • B) Long focal length
    • C) Zero focal length
    • D) Variable focal length
    • Answer: B) Long focal length
    • Explanation: The objective lens has a long focal length to gather more light and form a real image.
30. In a compound microscope, the final image is:
    • A) Real and erect
    • B) Virtual and inverted
    • C) Real and inverted
    • D) Virtual and erect
    • Answer: B) Virtual and inverted
    • Explanation: The final image in a compound microscope is virtual and inverted relative to the object.

Chapter 11: Heat and Thermodynamics

31. The first law of thermodynamics is a statement of:
    • A) Conservation of mass
    • B) Conservation of energy
    • C) Conservation of momentum
    • D) Conservation of charge
    • Answer: B) Conservation of energy
    • Explanation: The first law (ΔU = Q - W) states that the internal energy change equals heat added minus work done.
32. The efficiency of a Carnot engine depends on:
    • A) Working substance
    • B) Temperature of source and sink
    • C) Pressure of gas
    • D) Volume of gas
    • Answer: B) Temperature of source and sink
    • Explanation: Efficiency = 1 - (T₂/T₁), where T₁ and T₂ are the absolute temperatures of the source and sink.
33. Entropy is a measure of:
    • A) Temperature
    • B) Disorder
    • C) Energy
    • D) Heat
    • Answer: B) Disorder
    • Explanation: Entropy quantifies the disorder or randomness of a system.

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Recommended Resources for Complete MCQs

Since the above MCQs are a sample, you can access comprehensive MCQ sets with answers from the following sources:

1. FBISE Official Website (www.fbise.edu.pk):
   • Download past papers and model papers containing MCQs for all chapters. These are directly aligned with the syllabus.
2. Taleem City (www.taleemcity.com):
   • Offers chapter-wise solved MCQs in PDF format for FBISE 11th-class Physics, including answers and explanations.
3. Download Class Notes (www.downloadclassnotes.com):
   • Provides FBISE-specific notes with solved MCQs, numericals, and short questions in PDF format.
4. Ilmi Stars Academy (www.ilmistarsacademy.com):
   • Features video lectures and downloadable notes with MCQs for each chapter.
5. Pak Learning Spot (www.paklearningspot.com):
   • Includes chapter-wise MCQs with answers, useful for both board exams and entry test preparation.
6. Ilmi Hub (ilmihub.com):
   • Offers downloadable PDFs of solved MCQs for all chapters, taken from reliable sources like Al Rehman Notes.
7. Zahid Notes (www.zahidenotes.com):
   • Provides chapter-wise solved MCQs in PDF format, updated for FBISE syllabus.

To download MCQs:

• Visit the websites above, navigate to the 11th-class Physics section, and select “MCQs” or “Chapter-wise MCQs.”
• Most sites offer free PDF downloads or online viewing options.
• For past papers, check the FBISE website under “Examinations” > “Past Papers” for 2016–2024 papers.

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Tips for Using MCQs

• Practice Regularly: Solve 10–15 MCQs per chapter daily to cover all chapters in 5 days.
• Check Answers: Verify your answers using the provided keys to understand mistakes.
• Focus on Weak Areas: Revisit chapters where you score low in MCQs.
• Simulate Exam Conditions: Time yourself (1 minute per MCQ) to improve speed and accuracy.
• Combine with Past Papers: Use MCQs alongside past paper questions to understand question patterns.

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Note

The MCQs provided are original samples created to align with the FBISE syllabus and are not directly reproduced from any copyrighted source. For a complete set, rely on the recommended resources, as they offer extensive question banks tailored to FBISE exams. If you need MCQs for specific chapters or assistance downloading resources, please specify, and I’ll guide you further. Good luck with your preparation!

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Below is a set of 10 Multiple Choice Questions (MCQs) with answers, covering all chapters of the FBISE (Federal Board of Intermediate and Secondary Education) 11th-class Physics syllabus for the 2025 exam. These MCQs are designed to align with the FBISE syllabus, reflecting key concepts and question patterns based on the official curriculum and resources like past papers, www.taleemcity.com, and www.ilmistarsacademy.com. One MCQ is provided per chapter (except for combining Physical Optics and Optical Instruments due to their interrelated nature), ensuring coverage of all 11 chapters. Each MCQ includes the correct answer and a brief explanation.

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FBISE 11th-Class Physics Syllabus Chapters

1. Measurements
2. Vectors and Equilibrium
3. Motion and Force
4. Work and Energy
5. Circular Motion
6. Fluid Dynamics
7. Oscillations
8. Waves
9. Physical Optics
10. Optical Instruments
11. Heat and Thermodynamics

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10 MCQs with Answers and Explanations

1. Chapter 1: Measurements
   • Question: What is the dimension of pressure?
     • A) [M L⁻¹ T⁻²]
     • B) [M L T⁻²]
     • C) [M L⁻² T⁻²]
     • D) [M L T⁻¹]
     • Answer: A) [M L⁻¹ T⁻²]
     • Explanation: Pressure = Force/Area = [M L T⁻²]/[L²] = [M L⁻¹ T⁻²]. This is a fundamental concept tested in MCQs.
2. Chapter 2: Vectors and Equilibrium
   • Question: If two forces of 10 N each act at an angle of 60° to each other, the magnitude of their resultant is:
     • A) 10 N
     • B) 17.3 N
     • C) 20 N
     • D) 14.1 N
     • Answer: B) 17.3 N
     • Explanation: Resultant R = √(A² + B² + 2AB cosθ) = √(10² + 10² + 2×10×10×cos60°) = √(100 + 100 + 100) = √300 ≈ 17.3 N.
3. Chapter 3: Motion and Force
   • Question: A body is projected vertically upward. At its highest point, its acceleration is:
     • A) Zero
     • B) g (downward)
     • C) g (upward)
     • D) 2g
     • Answer: B) g (downward)
     • Explanation: At the highest point, velocity is zero, but acceleration due to gravity (g = 9.8 m/s²) acts downward.
4. Chapter 4: Work and Energy
   • Question: A 5 kg object is lifted 4 m vertically. The work done against gravity (g = 10 m/s²) is:
     • A) 50 J
     • B) 100 J
     • C) 200 J
     • D) 400 J
     • Answer: C) 200 J
     • Explanation: Work = mgh = 5 × 10 × 4 = 200 J. This tests the work-energy principle.
5. Chapter 5: Circular Motion
   • Question: The centripetal force required to keep a 2 kg object moving in a circle of radius 5 m at 10 m/s is:
     • A) 40 N
     • B) 80 N
     • C) 400 N
     • D) 800 N
     • Answer: C) 400 N
     • Explanation: Centripetal force F = mv²/r = (2 × 10²)/5 = 200/5 = 400 N.
6. Chapter 6: Fluid Dynamics
   • Question: Bernoulli’s principle is a consequence of:
     • A) Conservation of mass
     • B) Conservation of energy
     • C) Conservation of momentum
     • D) Conservation of charge
     • Answer: B) Conservation of energy
     • Explanation: Bernoulli’s equation relates pressure, velocity, and height, conserving mechanical energy in fluid flow.
7. Chapter 7: Oscillations
   • Question: The time period of a simple pendulum of length 1 m (g = 10 m/s²) is:
     • A) 1 s
     • B) 2 s
     • C) 3 s
     • D) 4 s
     • Answer: B) 2 s
     • Explanation: T = 2π√(L/g) = 2π√(1/10) ≈ 2 × 3.14 × 0.316 ≈ 2 s.
8. Chapter 8: Waves
   • Question: A wave has a frequency of 5 Hz and a wavelength of 2 m. Its speed is:
     • A) 2.5 m/s
     • B) 5 m/s
     • C) 10 m/s
     • D) 20 m/s
     • Answer: C) 10 m/s
     • Explanation: Wave speed v = fλ = 5 × 2 = 10 m/s.
9. Chapter 9 & 10: Physical Optics and Optical Instruments
   • Question: In Young’s double-slit experiment, the fringe width increases if:
     • A) Slit separation increases
     • B) Wavelength decreases
     • C) Distance to screen increases
     • D) Slit width increases
     • Answer: C) Distance to screen increases
     • Explanation: Fringe width β = λD/d. It increases with D (distance to screen) and λ, and decreases with d (slit separation).
10. Chapter 11: Heat and Thermodynamics
    • Question: The efficiency of a Carnot engine operating between 400 K and 300 K is:
      • A) 25%
      • B) 33%
      • C) 50%
      • D) 75%
      • Answer: A) 25%
      • Explanation: Efficiency = 1 - (T₂/T₁) = 1 - (300/400) = 1 - 0.75 = 0.25 = 25%.

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Key Notes

• Syllabus Alignment: These MCQs cover core concepts from the FBISE 11th-class Physics syllabus for 2025, focusing on high-weightage topics like Mechanics, Thermodynamics, and Waves, as seen in past papers.
• Question Style: The MCQs are designed to match FBISE exam patterns, including numerical-based, conceptual, and formula-based questions.
• Explanations: Brief explanations ensure understanding of why the correct answer is chosen, aiding revision.

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Recommended Resources for Additional MCQs

For a broader set of MCQs tailored to the FBISE 2025 exam:

1. FBISE Website (www.fbise.edu.pk):
   • Access past papers (2016–2024) and model papers under “Examinations” > “Past Papers” for chapter-wise MCQs.
2. Taleem City (www.taleemcity.com):
   • Offers free PDF downloads of solved MCQs for each chapter, updated for FBISE syllabus.
3. Ilmi Stars Academy (www.ilmistarsacademy.com):
   • Provides chapter-wise MCQs with answers and video explanations.
4. Download Class Notes (www.downloadclassnotes.com):
   • Contains solved MCQs, numericals, and short questions in PDF format.
5. Pak Learning Spot (www.paklearningspot.com):
   • Features MCQs for FBISE board exams and entry test preparation.

How to Access:

• Visit these websites, navigate to the 11th-class Physics section, and download “MCQs” or “Chapter-wise Questions.”
• Past papers are available on the FBISE website in PDF format, free of charge.

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Tips for MCQ Preparation

• Practice Daily: Solve 10–15 MCQs per chapter to cover the syllabus in 5 days.
• Time Yourself: Aim for 1 minute per MCQ to build exam speed.
• Review Mistakes: Use answer keys to understand errors and revisit weak topics.
• Combine with Past Papers: Practice MCQs alongside numericals and short questions from FBISE past papers for comprehensive preparation.

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Additional Guidance

These 10 MCQs are a sample to aid your preparation. If you need more MCQs for specific chapters, numerical-based questions, or help accessing resources (e.g., downloading past papers), please let me know, and I’ll provide tailored assistance. You can also request a focus on high-weightage chapters (e.g., Mechanics, Thermodynamics) for additional questions. Good luck with your 2025 FBISE Physics exam!

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I understand you want 10 MCQs covering all chapters of the FBISE 11th-class Physics syllabus for the 2025 exam, with one MCQ per chapter. Since the syllabus includes 11 chapters, I’ll provide one MCQ for each of the 11 chapters to ensure complete coverage, totaling 11 MCQs with answers and brief explanations. These MCQs are crafted to align with the Federal Board of Intermediate and Secondary Education (FBISE) syllabus, reflecting the style and difficulty of questions in past papers and resources like www.taleemcity.com and www.ilmistarsacademy.com. They focus on key concepts likely to appear in the 2025 exam.

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FBISE 11th-Class Physics Syllabus Chapters

1. Measurements
2. Vectors and Equilibrium
3. Motion and Force
4. Work and Energy
5. Circular Motion
6. Fluid Dynamics
7. Oscillations
8. Waves
9. Physical Optics
10. Optical Instruments
11. Heat and Thermodynamics

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11 MCQs with Answers and Explanations (One per Chapter)

1. Chapter 1: Measurements
   • Question: The number of significant figures in the measurement 0.00450 is:
     • A) 2
     • B) 3
     • C) 4
     • D) 5
     • Answer: B) 3
     • Explanation: In 0.00450, the significant figures are 4, 5, and the trailing zero (leading zeros are not significant). This tests understanding of significant figures, a common MCQ topic.
2. Chapter 2: Vectors and Equilibrium
   • Question: A body is in rotational equilibrium when the net:
     • A) Force is zero
     • B) Torque is zero
     • C) Velocity is zero
     • D) Acceleration is zero
     • Answer: B) Torque is zero
     • Explanation: For rotational equilibrium, the sum of torques about any point must be zero (second condition of equilibrium).
3. Chapter 3: Motion and Force
   • Question: A car accelerates uniformly from rest to 20 m/s in 5 seconds. Its acceleration is:
     • A) 2 m/s²
     • B) 4 m/s²
     • C) 5 m/s²
     • D) 10 m/s²
     • Answer: B) 4 m/s²
     • Explanation: Acceleration a = (v - u)/t = (20 - 0)/5 = 4 m/s². This tests kinematic equations.
4. Chapter 4: Work and Energy
   • Question: The kinetic energy of a 2 kg object moving at 5 m/s is:
     • A) 10 J
     • B) 25 J
     • C) 50 J
     • D) 100 J
     • Answer: B) 25 J
     • Explanation: Kinetic energy K = (1/2)mv² = (1/2) × 2 × 5² = 25 J.
5. Chapter 5: Circular Motion
   • Question: The angular velocity of a wheel rotating at 1200 rpm is:
     • A) 40π rad/s
     • B) 80π rad/s
     • C) 120π rad/s
     • D) 40 rad/s
     • Answer: A) 40π rad/s
     • Explanation: Angular velocity ω = 2πN/60, where N = 1200 rpm. So, ω = 2π × 1200/60 = 40π rad/s.
6. Chapter 6: Fluid Dynamics
   • Question: The equation of continuity is based on the conservation of:
     • A) Energy
     • B) Momentum
     • C) Mass
     • D) Charge
     • Answer: C) Mass
     • Explanation: The equation of continuity (A₁v₁ = A₂v₂) ensures mass flow rate is conserved in a fluid.
7. Chapter 7: Oscillations
   • Question: In simple harmonic motion, the restoring force is proportional to:
     • A) Velocity
     • B) Acceleration
     • C) Displacement
     • D) Time
     • Answer: C) Displacement
     • Explanation: In SHM, F = -kx, where the restoring force is directly proportional to displacement (x).
8. Chapter 8: Waves
   • Question: The phenomenon responsible for the formation of beats is:
     • A) Diffraction
     • B) Interference
     • C) Refraction
     • D) Polarization
     • Answer: B) Interference
     • Explanation: Beats occur due to the interference of two waves with slightly different frequencies.
9. Chapter 9: Physical Optics
   • Question: In a diffraction grating, the angle of diffraction increases if:
     • A) Wavelength decreases
     • B) Number of lines per meter increases
     • C) Wavelength increases
     • D) Grating spacing increases
     • Answer: C) Wavelength increases
     • Explanation: For a diffraction grating, d sinθ = mλ. For a given order (m), θ increases with wavelength (λ).
10. Chapter 10: Optical Instruments
    • Question: The final image in an astronomical telescope is:
      • A) Real and erect
      • B) Virtual and inverted
      • C) Real and inverted
      • D) Virtual and erect
      • Answer: B) Virtual and inverted
      • Explanation: In an astronomical telescope, the final image is virtual and inverted relative to the object.
11. Chapter 11: Heat and Thermodynamics
    • Question: The internal energy of an ideal gas depends on:
      • A) Pressure
      • B) Volume
      • C) Temperature
      • D) Mass
      • Answer: C) Temperature
      • Explanation: For an ideal gas, internal energy U is a function of temperature only (U = (f/2)nRT).

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Key Notes

• Syllabus Coverage: These 11 MCQs cover one question per chapter, ensuring all 11 chapters of the FBISE 11th-class Physics syllabus for 2025 are represented.
• Exam Relevance: The questions are designed to match FBISE exam patterns, focusing on conceptual understanding, numerical applications, and key formulas, as seen in past papers.
• Explanations: Brief explanations clarify the reasoning behind each answer, aiding quick revision.

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Recommended Resources for Additional MCQs

To access more MCQs for thorough preparation:

1. FBISE Official Website (www.fbise.edu.pk):
   • Download past papers (2016–2024) and model papers from “Examinations” > “Past Papers” for authentic MCQs.
2. Taleem City (www.taleemcity.com):
   • Provides chapter-wise solved MCQs in PDF format, tailored for FBISE syllabus.
3. Ilmi Stars Academy (www.ilmistarsacademy.com):
   • Offers MCQs with answers, video explanations, and downloadable notes.
4. Download Class Notes (www.downloadclassnotes.com):
   • Contains solved MCQs and short questions in PDF format for all chapters.
5. Pak Learning Spot (www.paklearningspot.com):
   • Features free MCQs for FBISE board exams, useful for practice.

How to Access:

• Visit these websites, go to the 11th-class Physics section, and select “MCQs” or “Chapter-wise Questions.”
• Past papers are freely available on the FBISE website in PDF format.

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Tips for MCQ Preparation

• Daily Practice: Solve 10–15 MCQs per chapter to cover the syllabus in 5 days.
• Time Management: Practice solving each MCQ in ~1 minute to simulate exam conditions.
• Analyze Mistakes: Use answer keys to understand errors and revisit weak chapters.
• Use Past Papers: Combine MCQ practice with numericals and short questions from FBISE past papers for balanced preparation.

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Additional Support

These MCQs are a sample to support your 2025 FBISE exam preparation. If you need:

• More MCQs for specific chapters (e.g., Mechanics or Thermodynamics).
• Numerical-based MCQs or short questions.
• Guidance on downloading past papers or accessing specific resources. please let me know, and I’ll provide tailored assistance. Good luck with your Physics exam!