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Lesson 2 – Uniform Acceleration

Lesson 2 – Uniform Acceleration. Minds-On. The following video shows the relationship between displacement, velocity, and acceleration of a ball tossed into the air. Acceleration. Acceleration is defined as the change in velocity over time

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Lesson 2 – Uniform Acceleration

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  1. Lesson 2 – Uniform Acceleration

  2. Minds-On The following video shows the relationship between displacement, velocity, and acceleration of a ball tossed into the air

  3. Acceleration • Acceleration is defined as the change in velocity over time • Acceleration is caused by a net force acting on an object • Two types of accelerations: instantaneous and average

  4. Acceleration • When a person experiences constant acceleration, they can feel it (e.g. a person feels acceleration in a car when it moves from a stop at a light) • People do not feel constant velocity (e.g. people in a car cruising on the highway at 100 km/h in a straight line and constant grade will feel as if they were not moving at all)

  5. Instantaneous Acceleration • Instantaneous acceleration is defined as velocity at a specific moment of time • In calculus notation:

  6. Average Acceleration • Average acceleration is defined as the change in velocity over an interval of time

  7. Uniform Acceleration • The type of acceleration we have modelled with the previous equations is uniform acceleration. This means the acceleration is not changing • Question: Describe how you can decide whether a car is moving with uniform acceleration without doing calculations. You have a stopwatch and a police radar gun.

  8. Solving Uniform Acceleration Problems • To solve uniform acceleration problems, there are 5 equations (aka The Big 5) which we can use

  9. Problem Consider the following series of events: (1) The cart is at rest against your hand and you begin to exert a steady force on the cart up the incline. (2) The cart leaves contact with your hand as it rolls up the incline. (3) It reaches its highest point. Describe how you can use the chart in the previous slide to help choose the best equation to solve a problem where = 0 m/s, = 1.6 m/s2, Δ= 0.8 m, and Δt23 is the unknown.

  10. Describe What’s Happening What’s happening between (1) and (2) ? Hand exerts a force on cart At (1), it accelerates from rest It reaches a certain velocity at (2)

  11. Describe What’s Happening What’s happening between (2) and (3) ? At (2), hand ceases to exert a force on cart It starts decelerating It reaches a final velocity of 0 m/s at (3)

  12. Solution to Problem What variable are we missing? Δt23 What variables do we have?

  13. Which Equation to Use? So which equation can we use?

  14. Rearranging the Equation So, we can use But we should rearrange the equation to solve for

  15. Solve the Equation We can now solve the equation using the quadratic formula:

  16. Solution Solving the equation yields: Note that there are 2 solutions: +1 s and -1 s. However, since time positive, we will disregard our -1s result. The final solution is

  17. Final Statement To complete the solution, we must describe the solution in writing. Solution: By identifying which variables we are given and which variable we are solving, we concluded that the equation will help us yield our solution. Solving for , the time interval it took for the cart to come to a rest from (2) to (3) is 1s.

  18. Exit Ticket What is the difference between instantaneous acceleration and average acceleration? What does uniform acceleration mean? Do people feel constant velocity? Do they feel constant acceleration?

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