Transcript DVA
Motion The study of kinematics is often referred to as the "geometry of motion". • To describe motion, kinematics studies the trajectories of points, lines and other geometric objects and their differential properties such as velocity and acceleration • The study of motion is fundamental to the principles of physics, and it is applied to a wide range of topic, such as automotive engineering, rocket launches, and improvement in athletic performances (kinesiology) As we saw with the RoadRunner lab… f(x) = model of displacement vs time f’(x) = velocity f’’(x) = acceleration f’’’(x) = called “jerk” or “jolt” f’’’’(x) = called “jounce” Anything beyond are called “hyperjerk” systems. • As an everyday example, driving in a car can show effects of acceleration and jerk. The more experienced drivers accelerate smoothly, but beginners provide a jerky ride. Changing gears, especially with a footoperated clutch, offers well-known examples: although the accelerating force is bounded by the engine power, an inexperienced driver lets you experience severe jerk, because of intermittent force closure over the clutch A construction worker drops a hammer from a height of 90m towards the ground The height of the hammer, as a function of time, is described by h(t) = 90 – 4.9t2 1.Determine the first derivative h’(t), What does it mean? 2.Determine the second derivative h’’(t), what does it mean? 3. When will the hammer hit the ground? 4. Determine the impact velocity of the hammer? Velocity and Acceleration have directions…. If the acceleration and the velocity of an object have the same sign at a particular time, then the object is being pushed in the direction of the motion, and the object is speeding up. If the acceleration and the velocity of an object have opposite signs at a particular time, then the object is being pushed in the opposite direction of its motion, and the object is slowing down. Velocity and Acceleration have directions…. An object is speeding up, at time t if v(t) X a(t) > 0 An object is slowing down, at time t if v(t) X a(t) < 0 Read ex 3 on page 103 Pg 106 [1-4] a,c 5a,b, 8, 9,10,13