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DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics PDF Download

Relative Motion

Ques 35: Two particles 1 and 2 are thrown in the directions shown in figure simultaneously with velocities 5 m/s and 20 m/s. Initially particle 1 is at height 20 m from the ground. Taking upwards as the positive direction, find:
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
(a) acceleration of 1 with respect to 2 
(b) initial velocity of 2 with respect to 1 
(c) velocity of 1 with respect to 2 after time t = 1/2 s 
(d) time when the particles will collide.
Ans: (a) zero
(b) 25 ms-1 
(c) - 25 ms-1 
(d) 0.8 s
Sol: (a) Acceleration of 1 w.r.t. 2
= (- g) - (- g)
= 0 m/s2 
(b) Initial velocity of 2 w.r.t. 1
= (+20) - (-5)
= 25 m/s
(c) Initial velocity of 1 w.r.t. 2
= (- 5) - (+ 20)
= - 25  m/s
∴ Velocity of 1 w.r.t. 2 at time DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
(d) Initial relative displacement of 2 w.r.t. 1
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
as at time t (= time of collision of the particles) the relative displacement of 2 w.r.t. 1 will be zero DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
⇒ t = 0.85 s

Ques 36: A person walks up a stalled 15 m long escalator in 90 s. When standing on the same escalator, now moving, the person is carried up in 60 s. How much time would it take that person to walk up the moving escalator? Does the answer depend on the length of the escalator?
Ans: 36 s, No
Sol:  Let length of escalator L (= 15 m)
walking speed of man = L/90
Speed of escalator = L/60
Time taken by man walking on a moving escalator
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
Required time has been found without using the actual length of the escalator.

Ques 37: A ball is thrown vertically upward from the 12 m level with an initial velocity of 18 m/s. At the same instant an open platform elevator passes the 5 m level, moving upward with a constant velocity of 2 m/s. 
Determine: 
(a) when and where the ball will meet the elevator, 
(b) the relative velocity of the ball with respect to the elevator when the ball hits the elevator.
Ans: (a) 3.65 s, at 12.30 m level (b) 19.8 ms-1 (downwards)
Sol:DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics= Initial displacement of elevator w.r.t. ball = + 10 m.
Relative velocity of elevator w.r.t. ball
= (2) - (18) = - 16 m/s
Accelerator of elevator w.r.t. ball
= (0) - (- 10)
= 10 m/s2

DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
or   5t2 - 16t - 10 = 0
t = 3.65 s
Position of elevator when it meets ball
= 5 + (2 x 3.65)
= 12.30 m level

Ques 38: An automobile and a truck start from rest at the same instant, with the automobile initially at some distance behind the truck. The truck has a constant acceleration of 2.2 m/s2 and the automobile has an acceleration of 3.5 m/s2. The automobile overtakes the truck when it (truck) has moved 60 m. 
(a) How much time does it take the automobile to overtake the truck? 
(b) How far was the automobile behind the truck initially? 
(c) What is the speed of each during overtaking?
Ans: (a) 7.39 s
(b) 35.5 m
(c) automobile 25.9 ms-1, truck 16.2 ms-1
Sol:
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics  … (i)
⇒ t = 7.39 s
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics  …(ii)
Dividing Eq. (ii) by Eq. (i),
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
or
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
x = 35.5 m
(c) At the time of overtaking
Speed of automobile = (3.5) (7.39)
= 25.85 m/s
Speed of truck = (2.2) (7.39)
= 16.25 m/s

Ques 39: A body is thrown up in a lift with a velocity u relative to the lift and the time of flight is t. Show that the lift is moving up with an acceleration DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
Sol: Let, acceleration of lift = a (upward)
∴ acceleration of thrown body w.r.t. lift
= (- g) - (+ a)
= - (g + a)
If time of flight is t, using
vrel = urel + arel t
(- v) = (+ u) + {- (a + g)}t
⇒ (a + g) t = 2 u
or DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics

Ques 40: A river is 20 m wide. River speed is 3 m/s. A boat starts with velocity 2√ m/s at angle 45° from the river current (relative to river) 
(a) Find the time taken by the boat to reach the opposite bank. 
(b) How far from the point directly opposite to the starting point does the boat reach the opposite bank?
Ans: (a) 10 s
(b) 50 m
Sol:
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics

Speed along OB is 2√2 m/s
∴ Time taken to reach B DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
= 10 s

Ques 41: Given DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics= magnitude o f velocity o f boatman with respect to river,DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics in the direction shown. Boatman wants to reach from point A to point B, At what angle θ should he row his boat.
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
Ans: DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
Sol: In Δ OPQ,
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics

Ques 42: An aeroplane has to go from a point P to another point Q, 1000 km away due north. Wind is blowing due east at a speed of 200 km/h. The air speed of plane is 500 km/h. 
(a) Find the direction in which the pilot should head the plane to reach the point Q. 
(b) Find the time taken by the plane to go from P to Q.
Ans: (a) at an angle θ = sin-1(0.4) west of north 

DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
Sol: Let pilot heads point R to reach point Q
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics

⇒ θ = sin -1 (0.4)
(PR)2 = (RQ)2 + (PQ)2

or (500 t)2 - (200 t)2 = (1000)2
or DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics
DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | DC Pandey Solutions for JEE Physics

The document DC Pandey Solutions (JEE Advance): Motion in One Dimension- 4 | 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- 4 - DC Pandey Solutions for JEE Physics

1. What is the importance of understanding motion in one dimension in the JEE Main exam?
Ans. Understanding motion in one dimension is important in the JEE Main exam as it forms the basis for many other topics in physics. It helps in solving problems related to velocity, acceleration, and displacement, which are frequently asked in the exam.
2. How can I improve my understanding of motion in one dimension for the JEE Main exam?
Ans. To improve your understanding of motion in one dimension for the JEE Main exam, you can start by studying the basic concepts and formulas related to motion. Practice solving various types of problems and try to understand the underlying principles. Additionally, referring to study materials and solving previous year question papers can also help in improving your understanding.
3. Can you suggest any resources or books for preparing motion in one dimension for the JEE Main exam?
Ans. Yes, for preparing motion in one dimension for the JEE Main exam, you can refer to the book "Physics for Joint Entrance Examination JEE (Advanced): Motion in One Dimension" by DC Pandey. This book provides detailed explanations and practice problems specifically designed for JEE Main.
4. What are the common mistakes students make while solving problems related to motion in one dimension in the JEE Main exam?
Ans. One common mistake students make while solving problems related to motion in one dimension is not considering the correct sign conventions for velocity and acceleration. It is important to understand the direction of motion and assign appropriate positive or negative signs. Another mistake is not using the correct formulas and equations for different scenarios, such as constant velocity or acceleration.
5. Are there any shortcuts or tricks to solve problems related to motion in one dimension in the JEE Main exam?
Ans. While there are no specific shortcuts or tricks to solve problems related to motion in one dimension, understanding the basic concepts and practicing regularly can help in solving problems more efficiently. It is important to break down the problem into smaller steps, identify the given information, and apply the appropriate formulas and equations. Additionally, memorizing important formulas and practicing with different types of problems can also improve problem-solving skills.
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