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DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics PDF Download

Objective Questions (Level 1) 
Single Correct Option
Ques 1: A packet is released from a rising balloon accelerating upward with acceleration a. The acceleration of the stone just after the release is 
(a) a upward 
(b) g downward 
(c) (g - a) downward 
(d) (g + a) downward
Ans:  g downward
Sol: As the packet is detached from rising balloon its acceleration will be g in the downward direction.
Option (b) is correct.

Ques 2: A ball is thrown vertically upwards from the ground. If T1 and T2 are the respective time taken in going up and coming down, and the air resistance is not ignored, then 
(a) T1 > T2 
(b) T1 = T2 
(c) T1 < T2 
(d) nothing can be said
Ans: T1 < T2 
Sol: While going up:
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Using v2 = u2 + 2as
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
i.e., DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
While coming down
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Using Eq. (i) and Eq. (ii)
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
⇒ T2 > T1
Option (c) is correct.

Ques 3: The length of a seconds hand in watch is 1 cm. The change in velocity of its tip in 15 s is
(a) zero 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Ans: DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Sol: Angular speed (ω) of seconds hand
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Speed of the tip of seconds hand
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics cm/s   [∵ v = rω and r = 1 cm]
As in 15s the seconds hand rotates through 90°, the change in velocity of its tip in 15 s will be
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (d) is correct.

Ques 4: A particle moving along a straight line travels half of the distance with uniform speed 30 ms-1 and the rem aining half of the distance with speed 60 ms-1. The average speed of the particle is 
(a) 45 ms-1 
(b) 42 ms-1 
(c) 40 ms-1 
(d) 50 ms-1
Ans: 40 ms-1
Sol: 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (c) is correct.

Ques 5: A boat is moving with a velocity DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics with respect to ground. The water in the river is moving with a velocity DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics with respect to ground. The relative velocity of the boat with respect to water is
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
(d) zero
Sol: Relative velocity of boat w.r.t. water
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (b) is correct.

Ques 6: During the first 18 min of a 60 min trip, a car has an average speed of 11 ms 1. What should be the average speed for remaining 42 min so that car is having an average speed of 21 ms -1 for the entire trip ? 
(a) 25.3 ms-1 
(b) 29.2 ms-1 
(c) 31 ms-1 
(d) 35.6 ms-1
Ans: 25.3 ms-1 
Sol:
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics


Ques 7: A particle moves along a straight line. Its position at any instant is given by DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics where x is in metre and t in second. Find the acceleration of the particle at the instant when particle is at rest, 
(a) -16 ms-2 
(b) -32 ms-2 
(c) 32 ms-2 
(d) 16 ms-2
Ans: -32 ms-2 
Sol: 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics

DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics  …(i)
∴ Particle is at rest when
32 - 8 t2 = 0
i.e., t = 2 s
Differentiating Eq. (i) w.r.t. time t
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
∴ a at time t = 2 s (when particle is at rest)
= - (16) x (2) = -32 m/s2 
Option (b) is correct.

Ques 8: A car starts from rest and accelerates at constant rate in a straight line. In the first second the car covers a distance of 2 m. The velocity of the car at the end of second (sec) will be 
(a) 4.0 ms-1 
(b) 8.0 ms-1 
(c) 16 ms-1 
(d) None of these
Ans: 8.0 ms-1 
Sol: For first one second
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
⇒ a = 4 m/s2 
Velocity at the end of next second
v = (4) x (2) = 8 m/s
Option (b) is correct.

Ques 9: A particle is moving along x-axis whose position is varying with time according to the relation x = - 3t + t3 where x is in metre and t is in second. The displacement of particle for t = 1 s to t = 3 s is 
(a) +16 m 
(b) -16 m 
(c) +20 m 
(d) -20 m
Ans: +20 m
Sol: x = - 3t + t3
∴ displacement at time t (= 1 s)
= - 3(1) + (1)3 = - 2 m
and displacement at time t (= 3 s)
= - 3(3) + (3)3 = 18 m
And as such displacement in the time interval (t = 1 s to t = 3 s)
= (18 m) - (- 2 m)
= + 20 m
Option (c) is correct.

Ques 10: The acceleration of a particle is increasing linearly with time t as bt. The particle starts from the origin with an initial velocity v0. The distance travelled by the particle in time t will be
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Ans: DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Sol: Acceleration α = bt
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or  DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Now, at t = 0, v = v0
∴ C = v0
i.e., DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
At t = 0, s = 0,
∴ k = 0
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (a) is correct.

Ques 11: Water drops fall at regular intervals from a tap 5 m above the ground. The third drop is leaving the tap, the instant the first drop touches the ground. How far above the ground is the second drop at that instant, (g = 1 0 ms-2
(a) 1.25 m 
(b) 2.50 m 
(c) 3.75 m 
(d) 4.00 m
Ans: 3.75 m
Sol:DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
∴  Height of 2nd drop  from ground
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (c) is correct.

Ques 12: A stone is dropped from the top of a tower and one second later, a second stone is thrown vertically downward with a velocity 20 ms-1. The second stone will overtake the first after travelling a distance of (g = 10 ms-2
(a) 13 m 
(b) 15 m 
(c) 11.25 m 
(d) 19.5 m
Ans: 11.25 m
Sol: 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
  [At time = t - 1]
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or    t2 = 4 (t - 1) + (t2 - 2t + 1)
or    2t - 3 = 0
or DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
= 11.25 m
Option (c) is correct.

Ques 13: When a ball is thrown up vertically with velocity v0, it reaches a maximum height of h. If one wishes to triple the maximum height then the ball should be thrown with velocity
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
(b) 3 v0 
(c) 9 v0 
(d) 3/2 v0
Ans:DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Sol: DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics and u2 = 2g (3h)
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or  u = v0√3
Option (a) is correct.

Ques 14: A particle moves in the x-y plane with velocity vx = 8t - 2 and vy = 2. If it passes through the point x = 14 and y = 4 at t = 2 s, the equation of the path is 
(a) x = y2 - y + 2
(b) x = y2 - 2
(c) x = y2 + y - 6
(d) None of these

Ans: x = y2 - y + 2
Sol:  vx = 8t - 2
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or       ∫ dx = ∫ (8 t - 2) dt
or        x = 4t2 - 2t + k1
Now at t = 2,  x = 14
∴ 14 = 4 × 22 - (2) 2 + k1 
i.e.,        k1 = 2
Thus, x = 4 t2 - 2t + 2 …(i)
Further, vy = 2
i.e., DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or ∫ dy = ∫ 2 dt
or  y = 2t + k2
Now, at t = 2, y = 4
∴ k2 = 0
Thus, y = 2t   …(ii)
Substituting t = y/2 in Eq. (i),
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
or   x = y2 - y + 2
Option (a) is correct.

Ques 15: The horizontal and vertical displacements of a particle moving along a curved line are given by x = 5t and y = 2t2 + 1. Time after which its velocity vector makes an angle o f 45° with the horizontal is 
(a) 0.5 s 
(b) 1 s 
(c) 2 s 
(d) 1.5 s
Ans: 1 s
Sol: x = 5t and y = 2t2 + t
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Now,  
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
⇒ t = 1 s
Option (b) is correct.

Ques 16: The height y and the distance x along the horizontal plane of a projectile on a certain planet (with no surrounding atmosphere) are given by y = (8t - 5 t2) metre and x = 6t metre where t is in second. The velocity of projection is 
(a) 8 ms-1 
(b) 6 ms-1 
(c) 10 ms-1 
(d) data insufficient
Ans: 10 ms-1 
Sol: y = 8t - 5t2 and x = 6t
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
At t = 0
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
∴ Velocity of projection
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (c) is correct.

Ques 17: A ball is released from the top of a tower of height h metre. It takes T second to reach the ground. What is the position of the ball in T/3 second?
(a) h/9 metre from the ground
(b) (7h/9) metre from the ground
(c) (8h/9) metre from the ground
(d) (17h/18)metre form the ground
Ans: (8h/9) metre from the ground
Sol: 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (c) is correct.

Ques 18: An ant is at a comer of a cubical room of side a. The ant can move with a constant speed u. The minimum time taken to reach the farthest comer of the cube is
(a) 3a/u 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Ans: DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Sol: Distance of farthest corner from one corner
= a + a + a = 3 a
∴ Time taken = 3a/u
Option (a) is correct.

Ques 19: A lift starts from rest. Its acceleration is plotted against time. When it comes to rest its height above its starting point is
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
(a) 20 m
(b) 64 m
(c) 32 m
(d) 36 m

Ans: 64 m
Sol: Time-velocity graph of the given time-acceleration graph will be
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
∴ Height of lift above the starting point when it comes to rest
= Area under t-v graph
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (b) is correct.

Ques 20: A lift performs the first part of its ascent with uniform acceleration a and the remaining with uniform retardation 2a. If t is the time of ascent, find the depth of the shaft.
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Ans: DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Sol: 
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
In time interval t1
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
In time interval t2
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
i.e.,   t1 = 2t2
Now   t1 + t2 = t
∴  2t2 + t2 = t
or  t2 = t/3
Depth of shaft = Displacement of lift
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics
Option (b) is correct.

The document DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 | DC Pandey Solutions for JEE Physics is a part of the JEE Course DC Pandey Solutions for JEE Physics.
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FAQs on DC Pandey Solutions (JEE Advance): Motion in One Dimension- 5 - DC Pandey Solutions for JEE Physics

1. What is the concept of motion in one dimension in physics?
Ans. Motion in one dimension refers to the movement of an object along a straight line. It only considers the change in position of the object with respect to time, without considering any other factors such as direction or acceleration. It is studied in physics to understand the basic principles and laws governing the motion of objects in a simplified manner.
2. How is motion in one dimension different from motion in multiple dimensions?
Ans. Motion in one dimension only considers the movement of an object along a straight line, while motion in multiple dimensions takes into account the object's movement in two or three perpendicular directions simultaneously. In one-dimensional motion, the object can only move forwards or backwards, whereas in multiple dimensions, it can move in any direction.
3. What are the key equations used to describe motion in one dimension?
Ans. The key equations used to describe motion in one dimension are: - Displacement (Δx) = Final position (xf) - Initial position (xi) - Average velocity (v) = Δx / Δt - Average speed (s) = Total distance traveled / Total time taken - Acceleration (a) = Change in velocity (Δv) / Δt - Final velocity (vf) = Initial velocity (vi) + at These equations can be used to solve problems related to motion in one dimension and derive various other formulas.
4. How is the concept of motion in one dimension applicable in real life?
Ans. The concept of motion in one dimension is applicable in various real-life scenarios. For example: - A car moving along a straight road can be considered as motion in one dimension. - The motion of a pendulum swinging back and forth can be analyzed as one-dimensional motion. - The motion of an elevator moving up or down in a building can be approximated as one-dimensional motion. - The motion of a ball rolling along a straight path can also be treated as motion in one dimension. Understanding the principles of motion in one dimension helps in predicting and analyzing the behavior of objects in such scenarios.
5. How can the DC Pandey JEE book help in understanding motion in one dimension for the JEE Main exam?
Ans. The DC Pandey JEE book provides comprehensive explanations, solved examples, and practice questions related to motion in one dimension. It covers all the important concepts, equations, and problem-solving techniques required for the JEE Main exam. By studying this book, students can enhance their understanding of motion in one dimension, improve their problem-solving skills, and effectively prepare for the physics section of the JEE Main exam.
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