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Equations of Motion & Dynamics of Uniform Circular Motion

December 14, 2023 679 0

Equations of Motion: Understanding the Dynamics of Velocity, Acceleration, and Distance in Linear Motion

When an object travels in a straight line and experiences uniform acceleration, it abides by certain relationships between its various motion attributes: velocity, acceleration, and the distance covered. These relationships are captured in a set of equations commonly referred to as the “equations of motion”.

 

Three Primary Equations of Motion:

  • Velocity-Time Relation: v = u + at. This equation relates the final velocity v of the object to its initial velocity u, the acceleration a, and the time t of motion.
  • Position-Time Relation: s = ut + ½ at2.  Here, s represents the distance or displacement covered by the object in time t
  • It relates the distance traveled by the object to its initial velocity, the time of motion, and the uniform acceleration.

Example: A car accelerates uniformly from 18 km h–1 to 36 km h–1 in 5s. Calculate (i) the acceleration and (ii) the distance covered by the car in that time.

Solution:

We are given that

u =  18 km h–1 =5ms–1

v=  36 km h–1 =10ms–1 and

t= 5s.

(i) a = v–u / t

= 10ms-1 – 5ms-1 / 5s
= 1 m s–2

(ii) s = ut + ½ at2

= 5ms–1 × 5s + ½ × 1 ms–2 × (5 s)2 

= 25 m + 12.5 m

= 37.5 m
The acceleration of the car is 1 m s–2 and the distance covered is 37.5 m.

  • Position-Velocity Relation: 2 as = v2 – u2 . This equation connects the object’s displacement to its initial and final velocities, devoid of a direct time reference. 
  • It can be derived from the previous two equations by eliminating the time t factor.
  • In the equations:
    • u stands for the initial velocity.
    • v denotes the final velocity after time t.
    • a is the uniform acceleration.
    • s is the distance or displacement covered during the time t.
  • Framework: These equations provide a foundational framework for analyzing linear motion with uniform acceleration. 
  • Graphical representation: Notably, they can be derived using graphical methods, illustrating the power of graphical representations in understanding and deriving physical relationships.

Understanding the Dynamics of Circular Motion: From Acceleration to Equations of Motion (Uniform Circular)

  • Change in Speed: Acceleration is usually associated with a change in the speed of an object.
    • However, it’s crucial to understand that a change in the direction of an object’s motion, even if its speed remains constant, also constitutes acceleration.
motion athlete
The motion of an athlete along closed tracks of different shapes
  • Simplifying Circular Motion : A runner sprinting around a track. On a rectangular track, if the athlete maintains a constant speed on each straight section (AB, BC, CD, DA), the only time his velocity changes is when he rounds a corner. 
    • Here, he alters his direction four times during a single lap.
    • Modifying Track: Now, let’s modify the track’s shape. Suppose it’s hexagonal. On such a track, the runner adjusts his direction six times in a complete loop. 
      • If we shift to an octagonal track, the turns become more frequent — the athlete changes his direction eight times in one loop.
    • Increasing Numbers: The intriguing part comes when we keep increasing the number of sides on our track. 
      • As the number of sides approaches infinity, each side becomes infinitesimally small, and our shape morphs into a circle. 

A Practical Illustration:
Imagine swinging a stone tied to a string in a circular pattern and then releasing it. The stone will dart in a straight line, tangential to its circular route. Why? 

  • At the release point, the stone preserves the motion direction it possessed at that instant. 
    • This behavior affirms that while moving in a circle, the stone’s direction altered at every juncture.
  • Similarly, during athletic events, when an athlete whirls and then releases a hammer or discus, it sails in the last direction it had before the release, echoing the behavior of our swung stone.
  • Several everyday examples encapsulate the uniform circular motion concept, from: 
  • celestial bodies like the moon orbiting the Earth, 
  • satellites revolving in circular trajectories around our planet, 
  • to a cyclist racing on a round track at a steady speed.

        • Example: For an athlete maintaining constant speed on a circular track, the only fluctuation in his velocity stems from the continuous shifts in direction. 
        • Accelerated Motion: This movement, despite the speed being unaltered, is termed as accelerated motion due to the constant changes in direction.
        • Example: For a circular path with a radius r, its circumference is given by 2πr. If our runner takes t seconds for one complete round on this track, his speed v is computed as:
          v = 2πr / t​
Force
(a) A spring expands on application of force;
(b) A spherical rubber ball becomes oblong as we apply force on it.
  • Conclusion: Thus when an object maintains a consistent speed while traveling in a circular path, it is termed uniform circular motion,  and its dynamics can be further understood through the equations of motion, as exemplified in the relationship between speed, radius, and time.

 

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हिंदी में भी उपलब्ध
Quick Revise Now !
UDAAN PRELIMS WALLAH
Comprehensive coverage with a concise format
Integration of PYQ within the booklet
Designed as per recent trends of Prelims questions
हिंदी में भी उपलब्ध

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