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In order to continue enjoying our site, we ask that you confirm your identity as a human. Thank you very much for your cooperation. When a body moves in a plane or on a straight line, three parameters are used to describe its motion – distance, velocity, and acceleration. Distance or displacement is self-explanatory. Velocity represents the rate of change of position, while acceleration represents the rate of change of velocity. All three quantities are vector quantities. Acceleration can be uniform or non-uniform. A uniform acceleration has a constant value and direction. It is essential to know the equation of motions that describe the motion of an object under uniform acceleration. Let’s look at them in detail. AccelerationAcceleration is defined as the rate of change of the velocity vector. Acceleration can be constant or varying. In the case of constant acceleration, its value is given by the ratio of net change of velocity and the total time taken. It is also called average acceleration. In the cases where the acceleration varies with time, instantaneous acceleration is calculated. Average Acceleration: Instantaneous acceleration: Uniform AccelerationUniform acceleration is the acceleration that does not vary with time. In such cases, the rate of change of velocity remains constant. Since acceleration is a vector quantity, even the direction of motion remains the same in the case of constant acceleration. Since the body is moving in a single direction with a constant magnitude of acceleration, vector notations can be dropped. Some examples of constant acceleration include
Equations of Uniformly Accelerated MotionIn this case, keeping the value of acceleration constant. Equations of motion can be described. Let’s say the initial velocity of an object was “u”, now a constant force is applied which causes the body to move with constant acceleration “a” and the body reaches the velocity in time “t” while covering the distance “s”. First Equation of Motion In the case of constant acceleration, its value is given by, Second Equation of Motion Instantaneous velocity is given by, This equation can be re-arranged in the following form, ds = vdt Substituting the value of velocity from the previous equation, ds = (u + at)dt Integrating both sides, Third Equation of Motion Instantaneous acceleration and instantaneous velocity is given by, a = v = Cross multiplying both of these equations, v2 = u2 + 2as Sample ProblemsQuestion 1: If a body is moving at an acceleration of 2 m/s2. If the initial speed was 15m/s, what will be the speed in 5 seconds. Answer:
Question 2: If a body is moving at an acceleration of -5 m/s2. If the initial speed was 30m/s, what will be the distance co in 5 seconds. Answer:
Question 3: If a body is moving at an acceleration of -5 m/s2. If the initial speed was 40m/s, what will be the speed in 5 seconds. Answer:
Question 4: If a body is moving at an acceleration of 10 m/s2. If the initial speed was 20m/s, what will be the speed in 2 seconds. Answer:
Question 5: A racing car catches a speed of 20m/s in 2 seconds. Find the distance covered by the car in the process. Answer:
Question 6: A rocket catches a speed of 50m/s in 5seconds. Find the distance covered by the rocket in the process. Answer:
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