Q1. Friction is a _________ force.
Ans: Contact
Q2. Friction always acts in the _________ direction to motion.
Ans: Opposite
Q3. SI unit of frictional force is _________.
Ans: Newton (N)
Q4. The force opposing relative motion between surfaces is _________.
Ans: Friction
Q5. True or False: Friction can produce heat.
Ans: True
Q6. The cause of friction is _________.
Ans: Irregularities of surfaces
Q7. Friction is more on a _________ surface.
Ans: Rough
Q8. Friction is less on a _________ surface.
Ans: Smooth
Q9. Static friction is _________ than kinetic friction.
Ans: Greater
Q10. Lubricants are used to _________ friction.
Ans: Reduce
Q11. The friction that allows walking is _________.
Ans: Static friction
Q12. Ball bearings are used to _________ friction.
Ans: Reduce
Q13. The friction in fluids is called _________.
Ans: Drag
Q14. Shape of aeroplanes is designed to reduce _________.
Ans: Air resistance
Q15. Sliding friction is _________ than rolling friction.
Ans: Greater
Q16. Matchstick lights due to _________.
Ans: Friction
Q17. True/False: Friction is always harmful.
Ans: False
Q18. Friction between tyres and road helps in _________.
Ans: Motion and stopping
Q19. Grease, oil, or powder used to reduce friction are called _________.
Ans: Lubricants
Q20. Fluid friction increases with _________.
Ans: Speed
Q21. Streamlined shapes are designed to _________ drag.
Ans: Reduce
Q22. Advantages of friction include _________ and _________.
Ans: Writing, walking
Q23. Disadvantage of friction is _________ of machines.
Ans: Wear and tear
Q24. Friction generates _________.
Ans: Heat
Q25. The least friction is offered by _________.
Ans: Rolling
Q26. Friction is necessary for _________.
Ans: Gripping
Q27. Sports shoes have grooves to _________ friction.
Ans: Increase
Q28. Which has less drag—bird or flat board?
Ans: Bird
Q29. Friction in fluids is also called _________.
Ans: Viscous force
Q30. The invention of _________ is due to friction.
Ans: Fire
Short & Long Answer Questions
Q31. Define friction.
Ans: The force that opposes motion between two surfaces in contact.
Q32. State two causes of friction.
Ans: Microscopic irregularities and interlocking of projections.
Q33. Why is friction a necessary evil?
Ans: It helps in walking/writing but also causes wear/heat.
Q34. Differentiate between static and sliding friction.
Ans: Static opposes starting motion, sliding acts during motion.
Q35. Why is sliding friction less than static friction?
Ans: Interlocking is less during motion.
Q36. Give one example where friction is desirable.
Ans: Writing with a pen.
Q37. Give one example where friction is undesirable.
Ans: Wear of machine parts.
Q38. Why do we use lubricants?
Ans: To fill gaps and reduce irregularities, lowering friction.
Q39. Why is rolling friction less than sliding friction?
Ans: Rolling reduces contact area and interlocking.
Q40. Give an example of rolling friction in daily life.
Ans: Ball bearings in machines.
Q41. Explain fluid friction.
Ans: Resistance offered by liquids or gases to objects moving through them.
Q42. Why do cars have streamlined shapes?
Ans: To reduce air drag.
Q43. Why do ships have streamlined shapes?
Ans: To reduce water resistance.
Q44. Why are tyres of vehicles grooved?
Ans: To increase grip and prevent slipping.
Q45. Why are soles of shoes patterned?
Ans: To increase friction for walking safely.
Q46. What happens when friction is too high?
Ans: Excess heat, energy loss, wear and tear.
Q47. What happens when friction is too low?
Ans: Slipping, difficulty in movement.
Q48. Why do objects slow down when moving on a surface?
Ans: Opposing frictional force.
Q49. Why do we sprinkle powder on carrom board?
Ans: To reduce friction and allow smooth sliding.
Q50. Why do matchsticks light when rubbed?
Ans: Friction produces heat that ignites chemicals.
Q51. Why do brake pads wear out?
Ans: Due to high friction during braking.
Q52. Why is friction less on ice?
Ans: Smooth surface reduces irregularities.
Q53. Why is friction important for writing?
Ans: Friction between pen and paper leaves marks.
Q54. How does friction help in walking?
Ans: It provides grip for feet to push backward.
Q55. Give one method to increase friction.
Ans: Using rough surfaces or grooves.
Q56. Give one method to decrease friction.
Ans: Applying lubricants.
Q57. Explain why we use ball bearings in wheels.
Ans: To convert sliding into rolling, reducing friction.
Q58. Why do aeroplanes and birds have streamlined bodies?
Ans: To reduce air resistance.
Q59. Why is friction called self-adjusting?
Ans: It increases until maximum limit to oppose applied force.
Q60. Differentiate between static, sliding, and rolling friction.
Ans: Static (before motion), sliding (during sliding), rolling (least, during rolling).
Q61. Why is it difficult to move a heavy box at rest?
Ans: High static friction.
Q62. Why is it easier to move the box once it starts sliding?
Ans: Sliding friction is less than static.
Q63. Why do rockets have pointed shapes?
Ans: To cut through air, reducing drag.
Q64. Why do swimmers wear special suits?
Ans: To reduce fluid resistance.
Q65. Why do tyres wear out after long use?
Ans: Due to continuous friction with road.
Q66. Why does rubbing hands produce heat?
Ans: Friction converts kinetic energy into heat.
Q67. How is friction both useful and harmful in daily life?
Ans: Helps in grip and writing, but causes wear and energy loss.
Q68. Explain how lubrication reduces friction.
Ans: It fills gaps, smoothens surface, reduces interlocking.
Q69. Why is it difficult to ride a bicycle without grease on its chain?
Ans: High friction without lubrication.
Q70. Explain why objects moving in air experience resistance.
Ans: Due to air molecules colliding against object’s surface.
Numerical / Application Questions
Q71. A box requires 100 N force to just start moving. What is the limiting friction?
Ans: 100 N
Q72. A 5 kg block lies on surface, μ = 0.4, g=10. Find friction.
Ans: F = μN = 0.4×50=20 N
Q73. A 10 kg block on table, μ=0.3. Find max static friction. (g=10)
Ans: N=100 N, Fs=0.3×100=30 N
Q74. A block weighs 200 N, μ=0.25. Find limiting friction.
Ans: F=0.25×200=50 N
Q75. A box of mass 20 kg requires 80 N to move. Find μ. (g=10)
Ans: N=200 N, μ=80/200=0.4
Q76. A 50 N block slides with force 15 N. If μ=0.3, does it move?
Ans: N=50, Fs=15 N < μN=15 N → Just starts moving
Q77. A 5 kg block, μ=0.2. Find frictional force. (g=10)
Ans: N=50, F=0.2×50=10 N
Q78. Weight=100 N, μ=0.1. Find force needed to slide it.
Ans: F=0.1×100=10 N
Q79. A 200 N block is pulled with 60 N. μ=0.25. Will it move?
Ans: Max friction=0.25×200=50 N < 60 → Yes
Q80. A 300 N block, μ=0.2. Find limiting friction.
Ans: 0.2×300=60 N
Q81. A 25 kg block on floor, μ=0.4. Find force required to move it. (g=10)
Ans: N=250, F=0.4×250=100 N
Q82. Force=40 N applied, μ=0.2, mass=15 kg. Will it move? (g=10)
Ans: N=150, Fs=30 N < 40 → Yes
Q83. A car tyre has μ=0.5. Weight=1000 N. Max friction?
Ans: 0.5×1000=500 N
Q84. A truck weight=20,000 N, μ=0.4. Find limiting friction.
Ans: 0.4×20,000=8000 N
Q85. A person pushes box of mass 10 kg with 25 N. μ=0.2. g=10. Will it move?
Ans: N=100, Fs=20 N < 25 → Yes
Q86. Frictional force=50 N, area=0.5 m². Pressure?
Ans: 50/0.5=100 Pa
Q87. A scooter tyre μ=0.6, weight=2000 N. Max friction?
Ans: 1200 N
Q88. A horse pulls cart of 1000 N. If μ=0.4, normal=1000 N, friction=?
Ans: 400 N
Q89. A block of 15 kg slides. μ=0.3. Find force needed. (g=10)
Ans: N=150, F=45 N
Q90. Car of mass 1000 kg, μ=0.5. Max braking force?
Ans: N=10000, F=5000 N
Q91. μ=0.25, block weight=400 N. Limiting friction?
Ans: 0.25×400=100 N
Q92. A 2 kg block slides with μ=0.1. g=10. Find friction.
Ans: N=20, F=2 N
Q93. A 500 N block, μ=0.3. Force required?
Ans: 0.3×500=150 N
Q94. A block 50 kg, μ=0.4. Find max static friction. (g=10)
Ans: N=500, F=200 N
Q95. μ=0.2, mass=30 kg, g=10. Frictional force=?
Ans: N=300, F=60 N
Q96. A 10 kg block needs 45 N to slide. μ=? (g=10)
Ans: N=100, μ=45/100=0.45
Q97. A car mass 800 kg, μ=0.5. Max friction?
Ans: N=8000, F=4000 N
Q98. A bike of weight 1500 N, μ=0.4. Max friction?
Ans: 600 N
Q99. Block mass=40 kg, μ=0.35. Force required? (g=10)
Ans: N=400, F=140 N
Q100. A 1000 N block on surface, μ=0.2. Find limiting friction.
Ans: 0.2×1000=200 N