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Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve PDF Download

4. Two dimensional motion or motion in a plane

Motion in a plane can be described by vector sum of two independent 1D motions along two mutual perpendicular  directions (as motions along two mutual directions don’t affect each other).

Consider a particle moving in X-Y plane, then its equations of motions for X and Y axes are 
  Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

where symbols have their usual meanings. Thus resultant motion would be described by the equations Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

4.1 PROJECTILE MOTION

It is the best example to understand motion in a plane. If we project a particle obliquely from the surface of earth, as shown in the figure below, then it can be considered as two perpendicular 1-D motions - one along the horizontal and other along the vertical.
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
Assume that effect of air friction and wind resistance are negligible and value of acceleration due to gravity  is constant.

Take point of projection as origin and horizontal and vertical direction as +ve X and Y-axes, respectively.   
For X-axis For Y - axis
ux = u cosθ, uy = u sinθ
ax = 0, ay = – g,
vx = u cosθ, and vy = u sinθ – gt, and 
x = u cosθ × t   y = u sinq t Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
It is clear from above equations that horizontal component of velocity of the particle remains constant while vertical component of velocity is first decreasing, gets zero at the highest point of trajectory and then increases in the opposite direction. At the highest point, speed of the particle is minimum.

The time, which projectile takes to come back to same (initial) level is called the time of flight (T).
At initial and final points, y = 0, 
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
 Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
Range (R) The horizontal distance covered by the projectile during its motion is said to be range of the projectile 
R = u cosθ × T =  Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
For a given projection speed, the range would be maximum for q = 45°.
Maximum height attained by the projectile is 
H = Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
at maximum height the vertical component of velocity is 0.
Time of ascent = Time of descent =  Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve 

  • Speed, kinetic energy, momentum of the particle initially decreases in a projectile motion and attains a minimum value (not equal to zero) and then again increases.
  • θ is the angle between  and horizontal which decreases to zero. (at top most point) and again increases in the negative direction. 

Ex.33 A body is projected with a velocity of 30 ms–1 at an angle of 30° with the vertical. Find the maximum height, time of flight and the horizontal range.
 Sol.
Here u = 30 ms–1,
Angle of projection, θ = 90 – 30 = 60°
Maximum height,

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
Time of flight,
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
Horizontal range,
 Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

Ex.34 Find out the relation between uA, uB, uC (where uA, uB, uC are the initial velocities of particles A, B, C, respectively) 

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

Sol. ∵ Hmax is same for all three particle A, B, C 
⇒    Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
⇒ uy is same for all       ∴  uyA = uyB = uyC 
⇒ TA = TB = TC Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
from figure RC > RB > RA  

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve 
⇒ uxC > uxB > uxA     ⇒ uA < uB< u

(C) Coordinate of a particle after a given time t :

Particle reach at a point P after time t then

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
x = ucosθ .t      
y = usinθ.t  Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

Position vector 

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

(D) Velocity  and direction of motion after a given time :

After time 't' vx = ucosθ and vy = usinθ – gt 
Hence resultant velocity  Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
  Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
 

(E) Velocity and direction of motion at a given height :

At a height 'h', vx = ucosθ   
And vyTwo-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
∴ Resultant velocity 
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
Note that this is the velocity that a particle would have at height h if it is projected vertically from ground with u.

Ex.35 A body is projected with a velocity of 20 ms–1 in a direction making an angle of 60° with the horizontal. Calculate its (i) position after 0.5 s and (ii) velocity after 0.5 s.

Sol. Here u = 20 ms–1, q = 60° , t = 0.5 s

(i)  x = (u cos θ)t = (20 cos60°) × 0.5 = 5 m
y = (u sin θ) t Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve = (20 × sin 60°) × 0.5
         1/2 –  × 9.8 × (0.5)2 = 7.43 m
(ii) vx = u cos θ = 20 cos 60° = 10 ms–1
vy =  u sin θ – gt = 20 sin 60° – 9.8 × 0.5
= 12.42 ms–1

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
     
Equation of trajectory of a projectile. 

Suppose the body reaches the point P(x, y) after time t.

 Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
∵ The horizontal distance covered by the body in time t,
x = Horizontal velocity × time = u cos θ. t
or Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
For vertical motion : u = u sinθ, a = –g, so the vertical distance covered in time t is given by
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

or y = px – qx2, where p and q are constants.

Thus y is a quadratic function of x. Hence the trajectory of a projectile is a parabola.

From equation (1)
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

Equation (2) is another form of trajectory equation of projectile
 

Ex.36 A ball is thrown from ground level so as to just clear a wall 4 m high at a distance of 4 m and falls at a distance of 14 m from the wall. Find the magnitude and direction of the velocity.
 Sol.
The ball passes through the point P(4, 4). So its range = 4 + 14 = 18m.

The trajectory of the ball is,

Now x = 4m,  y = 4m and R = 18 m
  Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

Ex.37 A particle is projected over a triangle from one end of a horizontal base and grazing the vertex falls on the other end of the base. If a and b be the base angles and q the angle of projection, prove that tan q =  tan a + tan b.
 Sol
. If R is the range of the particle, then from the figure we have

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT AchieveTwo-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve         
Also, the trajectory of the particle is 
   Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve
From equations (1) and (2), we get
tan θ = tan α + tan β. 

4.2 Projectile fired parallel to horizontal. As shown in shown figure suppose a body is projected horizontally with velocity u from a point O at a certain height h above the ground level. The body is under the influence of two simultaneous independent motions:

(i) Uniform horizontal velocity u.
(ii) Vertically downward accelerated motion with  constant acceleration g.        
Under the combined effect of the above two motions, the body moves along the path OPA.

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

Trajectory of the projectile. After the time t, suppose the body reaches the point P(x, y).
The horizontal distance covered by the body in time t is
x = ut ∴  t = x/u
The vertical distance travelled by the body in time t is given by
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve  
[For vertical motion, u = 0]

Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

As y is a quadratic function of x, so the trajectory of the projectile is a parabola.

Time of flight. It is the total time for which the projectile remains in its flight (from 0 to A). Let T be its time of flight.

For the vertical downward motion of the body,
we use
s = ut + 1/2 at2
Two-Dimensional Motion or Motion in a Plane | Physics for EmSAT Achieve

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FAQs on Two-Dimensional Motion or Motion in a Plane - Physics for EmSAT Achieve

1. What is two-dimensional motion or motion in a plane?
Ans. Two-dimensional motion or motion in a plane refers to the movement of an object in two perpendicular directions simultaneously, typically represented by the x and y axes. It involves analyzing the object's position, velocity, and acceleration in both the horizontal and vertical dimensions.
2. How is two-dimensional motion different from one-dimensional motion?
Ans. Two-dimensional motion involves movement in two perpendicular directions, while one-dimensional motion occurs in a single straight line. In two-dimensional motion, both the x and y components of position, velocity, and acceleration need to be considered, whereas in one-dimensional motion, only one component is relevant.
3. What are the key equations used in analyzing two-dimensional motion?
Ans. The key equations used in analyzing two-dimensional motion are: - Position equations: x = x₀ + v₀xt + 1/2at² and y = y₀ + v₀yt + 1/2at² - Velocity equations: vx = v₀x + axt and vy = v₀y + ayt - Displacement equations: Δx = v₀xt + 1/2at² and Δy = v₀yt + 1/2at² - Projectile motion equations: Range = (v₀²sin2θ) / g and Maximum height = (v₀²sin²θ) / (2g)
4. How can we find the range and maximum height of a projectile in two-dimensional motion?
Ans. To find the range and maximum height of a projectile in two-dimensional motion, we can use the following formulas: - Range = (v₀²sin2θ) / g, where v₀ is the initial velocity, θ is the launch angle, and g is the acceleration due to gravity. - Maximum height = (v₀²sin²θ) / (2g), where v₀ is the initial velocity, θ is the launch angle, and g is the acceleration due to gravity. These formulas take into account the initial velocity and launch angle to determine the horizontal distance traveled (range) and the vertical distance reached (maximum height) by the projectile.
5. How does the concept of vectors apply to two-dimensional motion?
Ans. Vectors play a crucial role in two-dimensional motion as they represent both the magnitude and direction of physical quantities like displacement, velocity, and acceleration. In two-dimensional motion, these vectors are often represented as vector components in the x and y directions. By analyzing these vector components, we can determine the overall vector magnitude and direction, as well as calculate the resultant vector by combining the individual vector components.
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