PHY 1951 LAB Position^J velocity and acceleration L2

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1951

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Physics

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Apr 3, 2024

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1 Position, Velocity and Acceleration Lab Online Purpose The purpose of this activity is to study some of the basic behaviors of a mass that is being uniformly accelerated; that means, experiencing a constant acceleration. Theory Displacement is defined to be the straight line length measured from what is taken to be the initial position, and the final position. ∆𝑥 = 𝑥 − 𝑥 𝑜 The average velocity is defined to be the time rate of change of position, therefore it is the displacement divided by the time interval the displacement took place over. 𝑣 𝑎𝑣𝑔 = ∆𝑥 𝑡 = 𝑥 − 𝑥 𝑜 𝑡 The average acceleration is defined as the time rate of change of velocity, therefore it is the average velocity divided by the time interval the change in velocity took place over. 𝑎 𝑎𝑣𝑔 = ∆𝑣 𝑎𝑣𝑔 𝑡 = 𝑣 − 𝑣 𝑜 𝑡 For a mass to be accelerated uniformly, the value of the acceleration must be constant, meaning it always has the same value, and therefore in such a case we can drop the ‘avg’ subscript for the acceleration in the above equation. 𝑎 = 𝑣 − 𝑣 𝑜 𝑡 When the acceleration a mass is experiencing is constant we say that that mass is being uniformly accelerated. Since acceleration is the time rate of change of velocity, then for a mass being uniformly accelerated, its velocity will be changing at a constant rate such that its average velocity will also be given by the following equation. 𝑣 𝑎𝑣𝑔 = 𝑣 + 𝑣 𝑜 2 This equation tells us that for a mass being uniformly accelerated its average velocity is just the average value between its initial and final velocities. Keep in mind that this equation is only true for masses experiencing uniform acceleration!

2 Just using these definitions, and with the assumption of uniform acceleration, we can easily construct the Linear Kinematic Equations of Motion. Some of the equations we can construct are the following Uniformly Accelerated Motion 𝑎 = 𝑎 𝑜 (constant value) 𝑣 = 𝑣 𝑜 + 𝑎𝑡 𝑥 = 𝑥 𝑜 + 𝑣 𝑜 𝑡 + 1 2 𝑎𝑡 2 Plotting these three equations out as functions of time will wield graphs similar to the following; A concept that is rarely discussed in freshman physics classes is the jerk. The average jerk is defined to be the time rate change of the acceleration; therefore, it is the change in acceleration divided by the time interval the change in acceleration took place over. 𝐽 𝑎𝑣𝑔 = 𝑎 − 𝑎 𝑜 𝑡 In this exercise we will be ignoring whatever little jerk there might be.

3 Setup 1. Go to the following website: https://www.walter-fendt.de/html5/phen/acceleration_en.htm 2. You should now see the following: Procedure 1. Move the little green bar that is near the top center of the large yellow area as far to the right as you can. 2. In the green area on the right side of the screen make the following settings: a. Initial Position: 0.00 m b. Initial Velocity: 0.00 m/s c. Acceleration: 0.75 m/s 2 3. Note that the instantaneous values for position, velocity, and acceleration can be seen at the bottom of the large yellow area. a. We will be recording the instantaneous values for position, velocity, and acceleration as well as the value for time in our table during the experiment. b. The time of the experiment can be read off from the three different experiment clocks in the large yellow area. 4. Start the experiment by clicking on the yellow start button located in the green section on the right of your screen. a. Once you click the start button it will turn into a pause button.

4 b. At approximately 1 second into the experiment, pause the experiment, and record the time of the experiment and the instantaneous values for position, velocity, and acceleration in Table 1. c. Restart the experiment only to pause it again at approximately 2 seconds to record the time and instantaneous values in Table 1. d. Repeat this process for approximately 10 seconds.

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