Systems of Particles and Rotational Motion Class 11 MCQ is one of the best strategies to prepare for the CBSE Class 11 Board exam. If you want to complete a grasp concept or work on one’s score, there is no method except constant practice. Students can improve their speed and accuracy by doing more MCQ on Systems of Particles and Rotational Motion Class 11, which will help them all through their board test.
Systems of Particles and Rotational Motion Class 11 MCQ Questions with Answer
Class 11 Physics MCQ with answers are given here to Chapter 7 Systems of Particles and Rotational Motion. These MCQs are based on the latest CBSE board syllabus and relate to the latest Class 11 Physics syllabus. By Solving these Class 11 MCQs, you will be able to analyze all of the concepts quickly in the chapter and get ready for the Class 11 Annual exam.
Learn Class 11 Systems of Particles and Rotational Motion MCQs with answers pdf free download according to the latest CBSE and NCERT syllabus. Students should prepare for the examination by solving CBSE Class 11 Physics Systems of Particles and Rotational Motion MCQ with answers given below
Question 1. Three identical metal balls, each of radius r are placed touching each other on a horizontal surface such that an equilateral triangle is formed when centres of three balls are joined. The centre of the mass of the system is located at
(a) line joining centres of any two balls
(b) centre of one of the balls
(c) horizontal surface
(d) point of intersection of the medians.
Question 2. The centre of mass of system of particles does not depend on
(a) position of the particles
(b) relative distances between the particles
(c) masses of the particles
(d) forces acting on the particle
Question 3. Two particles of mass 5 kg and 10 kg respectively are attached to the two ends of a rigid rod of length 1 m with negligible mass. The centre of mass of the system from the 5 kg particle is nearly at a distance of
(a) 33 cm
(b) 50 cm
(c) 67 cm
(d) 80 cm
Question 4. Three masses are placed on the x-axis : 300 g at origin, 500 g at x = 40 cm and 400 g at x = 70 cm. The distance of the centre of mass from the origin is
(a) 40 cm
(b) 45 cm
(c) 50 cm
(d) 30 cm
Question 5. A man of 50 kg mass is standing in a gravity free space at a height of 10 m above the floor. He throws a stone of 0.5 kg mass downwards with a speed 2 m/s. When the stone reaches the floor, the distance of the man above the floor will be
(a) 9.9 m
(b) 10.1 m
(c) 10 m
(d) 20 m
Question 6. Two persons of masses 55 kg and 65 kg respectively, are at the opposite ends of a boat. The length of the boat is 3.0 m and weighs 100 kg. The 55 kg man walks up to the 65 kg man and sits with him. If the boat is in still water the center of mass of the system shifts by
(a) 3.0 m
(b) 2.3 m
(d) 0.75 m
Question 7. Two particles which are initially at rest, move towards each other under the action of their internal attraction. If their speeds are v and 2v at any instant, then the speed of centre of mass of the system will be
Question 8. A particle of mass m = 5 is moving with a uniform speed v =3 √2 in the XOY plane along the line y = x + 4. The magnitude of the angular momentum of the particle about the origin is
(a) 60 units
(b) 40 2 units
(d) 7.5 units
Question 9. When a mass is rotating in a plane about a fixed point, its angular momentum is directed along
(a) a line perpendicular to the plane of rotation
(b) the line making an angle of 45° to the plane of rotation
(c) the radius
(d) the tangent to the orbit.
Question 10. A particle of mass m moves in the XY plane with a velocity v along the straight line AB. If the angular momentum of the particle with respect to origin O is LA when it is at A and LB when it is at B, then
(a) LA = LB
(b) the relationship between LA and LB depends upon the slope of the line AB
(c) LA < LB
(d) LA > LB
Question 11. (1) Centre of gravity (C.G.) of a body is the point at which the weight of the body acts.
(2) Centre of mass coincides with the centre of gravity if the earth is assumed to have infinitely large radius.
(3) To evaluate the gravitational field intensity due to any body at an external point, the entire mass of the body can be considered to be concentrated at its C.G.
(4) The radius of gyration of any body rotating about an axis is the length of the perpendicular drawn from the C.G. of the body to the axis. Which one of the following pairs of statements is correct?
(a) (4) and (1)
(b) (1) and (2)
(c) (2) and (3)
(d) (3) and (4)
Question 12. Which of the following statements are correct?
(1) Centre of mass of a body always coincides with the centre of gravity of the body.
(2) Centre of mass of a body is the point at which the total gravitational torque on the body is zero.
(3) A couple on a body produces both translational and rotational motion in a body.
(4) Mechanical advantage greater than one means that small effort can be used to lift a large load.
(a) (1) and (2)
(b) (2) and (3)
(c) (3) and (4)
(d) (2) and (4)
Question 13. A couple produces
(a) linear and rotational motion
(b) no motion
(c) purely linear motion
(d) purely rotational motion.
Question 14. A rod of length 3 m and its mass per unit length is directly proportional to distance x from one of its end then its centre of gravity from that end will be at
(a) 1.5 m
(b) 2 m
(c) 2.5 m
(d) 3.0 m
Question 15. 250 N force is required to raise 75 kg mass from a pulley. If rope is pulled 12 m then the load is lifted to 3 m, the efficiency of pulley system will be
Question 16. The ratio of the radii of gyration of a circular disc to that of a circular ring, each of same mass and radius, around their respective axes is
(a) √2 :1
(b) 2 : 3
(c) 3 : 2
(d) 1: 2
Question 17. A solid sphere of mass m and radius R is rotating about its diameter. A solid cylinder of the same mass and same radius is also rotating about its geometrical axis with an angular speed twice that of the sphere. The ratio of their kinetic energies of rotation (Esphere/Ecylinder) will be
(a) 2 : 3
(b) 1 : 5
(c) 1 : 4
(d) 3 : 1
Question 18. From a circular disc of radius R and mass 9M, a small disc of mass M and radius R/3 is removed concentrically. The moment of inertia of the remaining disc about an axis perpendicular to the plane of the disc and passing through its centre is
(a) 40/9 MR2
(d) 4/9 MR2
Question 19. A fly wheel rotating about fixed axis has a kinetic energy of 360 joule when its angular speed is 30 radian/sec. The moment of inertia of the wheel about the axis of rotation is
(a) 0.6 kg m2
(b) 0.15 kg m2
(c) 0.8 kg m2
(d) 0.75 kg m2
Question 20. Two bodies have their moments of inertia I and 2I respectively about their axis of rotation. If their kinetic energies of rotation are equal, their angular velocity will be in the ratio
(a) 2 : 1
(b) 1 : 2
(c) 2 : 1
(d) 1 : 2
Question 21. A circular disc is to be made by using iron and aluminium so that it acquires maximum moment of inertia about geometrical axis. It is possible with
(a) aluminium at interior and iron surrounding it
(b) iron at interior and aluminium surrounding it
(c) using iron and aluminium layers in alternate order
(d) sheet of iron is used at both external surface and aluminium sheet as internal layers.
Question 22. A thin rod of length L and mass M is bent at its midpoint into two halves so that the angle between them is 90°. The moment of inertia of the bent rod about an axis passing through the bending point and perpendicular to the plane defined by the two halves of the rod is
(a) ML2 /6
(b) √2/ML2 /24
(c) ML2 /24
(d) ML2 /12
Question 23.From a disc of radius R and mass M, a circular hole of diameter R, whose rim passes through the centre is cut. What is the moment of inertia of the remaining part of the disc about a perpendicular axis, passing through the centre?
(a) 11 MR2/32
(b) 9 MR2/32
(c) 15 MR2/32
(d) 13 MR2/32
Whoever needs to take the CBSE Class 11 Board Exam should look at this MCQ. To the Students who will show up in CBSE Class 11 Physics Board Exams, It is suggested to practice more and more questions. Aside from the sample paper you more likely had solved. These Systems of Particles and Rotational Motion Class 11 MCQ are ready by the subject specialists themselves.
Question 24. The moment of inertia of a thin uniform rod of mass M and length L about an axis passing through its midpoint and perpendicular to its length is I0. Its moment of inertia about an axis passing through one of its ends and perpendicular to its length is
(a) I0 + ML2/2
(b) I0 + ML2/4
(c) I0 + 2ML2
(d) I0 + ML2
Question 25. A wheel has angular acceleration of 3.0 rad/sec2 and an initial angular speed of 2.00 rad/sec. In a time of 2 sec it has rotated through an angle (in radians) of
Question 26. The ratio of the radii of gyration of a circular disc about a tangential axis in the plane of the disc and of a circular ring of the same radius and mass about a tangential axis in the plane of the ring is
(a) 2 : 3
(b) 2 : 1
(c) √5 : √6
(d) 1: √2
Question 27. Moment of inertia of a uniform circular disc about a diameter is I. Its moment of inertia about an axis perpendicular to its plane and passing through a point on its rim will be
Question 28. A rope is wound around a hollow cylinder of mass 3 kg and radius 40 cm. What is the angular acceleration of the cylinder if the rope is pulled with a force of 30 N?
(a) 0.25 rad s–2
(b) 25 rad s–2
(c) 5 m s–2
(d) 25 m s–2
Question 29. A uniform circular disc of radius 50 cm at rest is free to turn about an axis which is perpendicular to its plane and passes through its centre. It is subjected to a torque which produces a constant angular acceleration of 2.0 rad s–2. Its net acceleration in m s–2 at the end of 2.0 s is approximately
Question 30. A solid cylinder of mass 2 kg and radius 4 cm is rotating about its axis at the rate of 3 rpm. The torque required to stop it after 2p revolutions is
(a) 2 × 106 N m
(b) 2 × 10–6 N m
(c) 2 × 10–3 N m
(d) 12 × 10–4 N m
Question 31. Three objects, A : (a solid sphere), B : (a thin circular disk) and C : (a circular ring), each have the same mass M and radius R. They all spin with the same angular speed w about their own symmetry axes.
The amounts of work (W) required to bring them to rest, would satisfy the relation
(a) WC > WB > WA
(b) WA > WB > WC
(c) WB > WA > WC
(d) WA > WC > WB
Question 32. The instantaneous angular position of a point on a rotating wheel is given by the equation q(t) = 2t3 – 6t2.
The torque on the wheel becomes zero at
(a) t = 1 s
(b) t = 0.5 s
(c) t = 0.25 s
(d) t = 2 s
Question 33. An automobile moves on a road with a speed of 54 km h–1. The radius of its wheels is 0.45 m and the moment of inertia of the wheel about its axis of rotation is 3 kg m2. If the vehicle is brought to rest in 15 s, the magnitude of average torque transmitted by its brakes to the wheel is
(a) 10.86 kg m2 s–2
(b) 2.86 kg m2 s–2
(c) 6.66 kg m2 s–2
(d) 8.58 kg m2 s–2
Question 34. A solid cylinder of mass 50 kg and radius 0.5 m is free to rotate about the horizontal axis. A massless string is wound round the cylinder with one end attached to it and other hanging freely. Tension in the string\ required to produce an angular acceleration of 2 revolutions s–2 is
(a) 25 N
(b) 50 N
(c) 78.5 N
(d) 157 N
Question 35. Two rotating bodies A and B of masses m and 2m with moments of inertia IA and IB (IB > IA) have equal kinetic energy of rotation. If LA and LB be their angular momenta respectively, then
(a) LA = LB /2
(b) LA = 2LB
(c) LB > LA
(d) LA > LB
Question 36. The moment of inertia of a body about a given axis is 1.2 kg m2. Initially, the body is at rest. In order to produce a rotational kinetic energy of 1500 joule, an angular acceleration of 25 radian/sec2 must be applied about that axis for a duration of
(a) 4 s
(b) 2 s
(c) 8 s
(d) 10 s
Question 37. A solid sphere is rotating freely about its symmetry axis in free space. The radius of the sphere is increased keeping its mass same. Which of the following physical quantities would remain constant for the sphere?
(a) Angular velocity.
(b) Moment of inertia.
(c) Rotational kinetic energy.
(d) Angular momentum.
Question 38. A circular platform is mounted on a frictionless vertical axle. Its radius R = 2 m and its moment of inertia about the axle is 200 kg m2. It is initially at rest. A 50 kg man stands on the edge of the platform and begins to walk along the edge at the speed of 1 m s–1 relative to the ground. Time taken by the man to complete one revolution is
(a) p s
(b) 3p/2 s
(c) 2p s
(d) p/2 s
Question 39. Two discs are rotating about their axes, normal to the discs and passing through the centres of the discs. Disc D1 has 2 kg mass and 0.2 m radius and initial angular velocity of 50 rad s–1. Disc D2 has 4 kg mass, 0.1 m radius and initial angular velocity of 200 rad s–1. The two discs are brought in contact face to face, with their axes of rotation coincident. The final angular velocity (in rad s–1) of the system is
Question 40. A solid cylinder of mass 2 kg and radius 50 cm rolls up an inclined plane of angle inclination 30°.
The centre of mass of cylinder has speed of 4 m/s.
The distance travelled by the cylinder on the incline surface will be (Take g = 10 m/s2)
(a) 2.2 m
(b) 1.6 m
(c) 1.2 m
(d) 2.4 m
Question 41. A disc is rotating with angular speed w. If a child sits on it, what is conserved?
(a) linear momentum.
(b) angular momentum.
(c) kinetic energy.
(d) potential energy
Question 42. A disc of radius 2 m and mass 100 kg rolls on a horizontal floor. Its centre of mass has speed of 20 cm/s. How much work is needed to stop it ?
(a) 1 J
(b) 3 J
(c) 30 kJ
(d) 2 J
Question 43. The ratio of the accelerations for a solid sphere (mass m and radius R) rolling down an incline of angle q without slipping and slipping down the incline without rolling is
(a) 5 : 7
(b) 2 : 3
(c) 2 : 5
(d) 7 : 5
Question 44. A solid sphere is in rolling motion. In rolling motion a body possesses translational kinetic energy (Kt) as well as rotational kinetic energy (Kr) simultaneously.
The ratio Kt : (Kt + Kr) for the sphere is
(a) 7 : 10
(b) 5 : 7
(c) 10 : 7
(d) 2 : 5
Question 45. A small object of uniform density rolls up a curved surface with an initial velocity ‘v’. It reaches upto a maximum height of 3V2 /4g with respect to the initial position. The object is
(a) hollow sphere
(d) solid sphere.
Question 46. A disc and a sphere of same radius but different masses roll off on two inclined planes of the same altitude and length. Which one of the two objects gets to the bottom of the plane first?
(a) Both reach at the same time
(b) Depends on their masses
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In Class 11 chapter 7 Physics, we have provided 46 Important MCQ Questions, But in the future, we will add more MCQs so that you can get good marks in the Class 11 exam.