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JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced PDF Download

Q.1. Co-efficient of friction for all surfaces is μ. The strings and pulleys are ideal. Blocks are moving at a constant speed. Choose the correct options
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(a) F = 9μmg
(b) T1 = 2μmg
(c) T2 = 6μmg
(d) T1 = 4μmg

Correct Answer is Option (a and b)

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
As string is ideal T1 = T2
T1 = μN1 = 2 μmg
F = T1 + μN1 + μN= 2 μmg + 2μmg + 5μmg = 9 μmg.

Q.2. In the figure, the pulley P moves to the right with a constant speed u. The downward speed of A is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced, and the speed of B to the right is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced(a) JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(b) JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(c) JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

(d) the two blocks have accelerations of the same magnitude.

Correct Answer is option (b and d)
At any instant of time, let the length of the string BP = l1 and the length PA = l2. In a further time t, let B move to the right by x and A move down by y, while P moves to the right by ut. As the length of the string must remain constant,
l1 + l2 = (l1 – x + ut) + (l2 + y)
or x = ut + y
or x. = u + y. .

x = speed of B to the right = vB, .

y = downward speed of A = vA
∴ v= u + vA

Also, v.B =vA
or, aB = aA.

Q.3.  A block of mass m1 is connected with another block of mass m2 by a light unextended spring kept on a smooth horizontal plane. m2 is connected with a hanging mass m3 by an inextensible light string. At the time of release of block m3:
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(a) tension in the string is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(b) acceleration of m1 is zero
(c) acceleration of m2 is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(d) acceleration of m2 is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

Correct Answer is option (A, b and d)
Initially spring is unstretched

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

Q.4. Two masses A and B lie on a frictionless table. They are attached to either end of a light rope which passes around a horizontal movable pulley of negligible mass.
mA = 1 kg, mB = 2 kg, mc = 4 kg. Pulley P2 is vertical.

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced(a) aA = 8 m/s2
(b) aB = 4 m/s2
(c) ac = 6 m/s2
(d) a> aB > a
C

Correct Answer is option (A, b and c)
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

FBD of A and  B
w.r.t. pulley P1
Equations of motion are
T – 2ac = 2a…(i)
ac – T = a1 …(ii)
and 40 – 2T = 4a …(iii)
Solve to get the answers.

Q.5. The acceleration of blocks of masses 5 kg and 10 kg are
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced(a) zero if F = 100N
(b) a1 = 5m / s2 and a2 = 0 if F = 300N
(c) a1 = 15m /s2 a2 = 2.5m / s2 if F = 500N
(d) Acceleration of the masses is independent of F

Correct Answer is option (A, b and c)

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
2T ' = F ;  T' F/2 = ; 2T = T'= F/ 2; T = F/ 4

F/4 = 5g ⇒ F = 200 N (5kg is lifted off)

F/4 =10g ⇒ F = 400 N(10kg is lifted off)

When F = 100 N

a= a2 = 0
When F = 300 N

a2 = 0 ; F/4 50 = 5 a1 ⇒ a1 = 5m / sec2
When F = 500 N

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

Q.6. A man in a lift ascending with an upward acceleration a throws a ball vertically upwards with a velocity v and catches it after t1 second. Afterwards, when the lift is descending with the same acceleration a acting downwards, the man again throws the ball vertically upwards with the same velocity and catches it after t2 seconds. Which of the following statements are correct?
(a) The velocity of the ball is g ( t1 + t2 )/t1t2
(b) The velocity of the ball is gt1t2/( t1 + t2)
(c) The acceleration of the ball is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(d) The acceleration of the ball is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

Correct Answer is option (b and c)
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

Q.7. In the figure, a man of true mass M is standing on a weighing machine placed in a cabin. The cabin is joined by a string with a body of mass m. Assuming no friction, and negligible mass of cabin and weighing machine, the measured mass of man is (normal force between the man and the machine is proportional to the mass)

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced(a) measured mass of man is Mm/(M + m)
(b) acceleration of man is mg/(M + m)
(c) acceleration of man is Mg/(M + m)
(d) measured mass of man is M.

Correct Answer is option (a and c)
Mg – T = Ma …(i)
T = ma …(ii)
Solving (i) and (ii)
a = mg/(M + m)
FBD of man
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced 

Mg – N = Ma
N = Mmg(M + m)

Q.8. Figure shows two blocks A and B connected to an ideal pulley string system. In this system when bodies are released then (neglect friction and take g = 10 m/s2)

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced(a) Acceleration of block A is 1 m/s2
(b) Acceleration of block A is 2 m/s2
(c) Tension in string connected to block B is 40 N
(d) Tension in string connected to block B is 80 N

Correct Answer is option (b and d)
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
Applying NLM on 40 kg block 400 – 4T = 40 a
For 10 kg block T = 10.4 a
Solving α = 2 m/s2
T = 80 N

Q.9. The system of two blocks is at rest as shown in the figure. A variable horizontal force is applied on the upper block. The co–efficient of friction for both the contacts is m. Choose the correct option(s)
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(a) When acceleration of the upper block is 2 mg net force on the lower block by the ground in JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
(b) When acceleration of the upper block is 2 mg acceleration of the lower block is zero.
(c) Net horizontal force on the lower block is always zero.
(d) Unless the upper block moves, no frictional force exists between the ground and the lower block.

Correct Answer is option (a, b and c)
∵ (f1)max = μmg < (f2)max
2m will not move.

When acceleration of m is 2μg then
F = 3 μmg and f1 = μmg.
∴ Total force on (2m) by groundJEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

Q.10. The figure shows a block of mass m placed on a smooth wedge of mass M. Calculate the value of M' and tension in the string, so that the block of mass m will move vertically downward with acceleration 10 m/s2 (Take g = 10 m/s2)
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced(a) the value of M' is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

(b) the value of M¢ is JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced

(c) the value of tension in the string is Mg/tan θ

(d) the value of tension is μg/ cot θ

Correct Answer is option (a, b and c)

JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
M ' g - T= M ' a    ... (i)
T = Ma     ... (i)
M ' g = a(M + M ')
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
ma sin θ = mg cos θ
a = g cot θ

g cot θ =  (M 'g/M + M)
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
cot θ M + cot θM ' = M '
JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced
T = M a
= M. g cot θ
T = Mg/tan θ

The document JEE Advanced (One or More Correct Option): Laws of Motion | Chapter-wise Tests for JEE Main & Advanced is a part of the JEE Course Chapter-wise Tests for JEE Main & Advanced.
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