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PHYS 1443 – Section 501 Lecture #3

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1 PHYS 1443 – Section 501 Lecture #3
Wednesday, January 28, 2004 Dr. Andrew Brandt One Dimensional Motion Acceleration Motion under constant acceleration Free Fall Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

2 Announcements Homework: 25 of you have signed up (out of 44)
1st homework due 2/4 at midnight Roster will be locked soon Homework system deducts points for failed attempts. So be careful when you input the answers Keep an extra significant figure Physics Clinic (Supplementary Instruction): 12-7:30, M-F Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

3 Displacement, Velocity and Speed
Average velocity Average speed Instantaneous velocity Instantaneous speed Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

4 Acceleration Average acceleration: analogous to
Acceleration = change of velocity with time Average acceleration: analogous to Instantaneous acceleration: analogous to In calculus terms: A slope (derivative) of velocity with respect to time or change of slopes of position as a function of time Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

5 Example 2.7 A particle is moving in a straight line so that its position as a function of time is given by the equation x=(2.10m/s2)t2+2.8m. (a) Compute the average acceleration during the time interval from t1=3.00s to t2=5.00s. (b) Compute the particle’s instantaneous acceleration as a function of time. The acceleration of this particle is independent of time. What does this mean? This particle is moving under a constant acceleration. Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

6 One Dimensional Motion
Let’s start with the simplest case: acceleration is constant (a=a0) Using definitions of average acceleration and velocity, we can write equations of motion (description of motion, velocity and position as a function of time) If tf=t and ti=0 For constant acceleration, simple numeric average If tf=t and ti=0 Resulting Equation of Motion becomes often use o instead of i for initial Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

7 One Dimensional Motion cont’d
Average velocity Why am I doing this? Since Substituting t in the above equation, we obtain Resulting in Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

8 Kinetic Equations of Motion in a Straight Line Under Constant Acceleration
Velocity as a function of time Displacement as a function of velocity and time Displacement as a function of time, velocity, and acceleration Velocity as a function of displacement and acceleration You may use different forms of Kinetic equations, depending on the information given to you for a specific problem!! Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

9 Example 2.11 Suppose you want to design an air-bag system that can protect the driver in a head-on collision at a speed 100km/s (~60miles/hr). Estimate how fast the air-bag must inflate to effectively protect the driver. Assume the car crumples upon impact over a distance of about 1m. How does the use of a seat belt help the driver? How long does it take for the car to come to a full stop? As long as it takes for it to crumple. The initial speed of the car is We also know that and I would have used Formula 2! Using the kinetic formula The acceleration is Thus the time for air-bag to deploy is Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

10 Free Fall Free fall is a motion under the influence of gravity only; Which direction is a freely falling object moving? Gravitational acceleration is inversely proportional to the distance (squared) between the object and the center of the earth. The gravitational acceleration is g = 9.80m/s2 on the surface of the earth, give or take a tall mountain. The direction of gravitational acceleration is ALWAYS toward the center of the earth, which we normally call (-y); where the up and down direction are indicated as the variable “y” Thus the correct denotation of gravitational acceleration on the surface of the earth is g = -9.80m/s2 Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

11 Example for Using 1D Kinetic Equations on a Falling object
Stone was thrown straight upward at t=0 with +20.0m/s initial velocity off the roof of a 50.0m high building, What is the acceleration for this motion? g=-9.80m/s2 (a) Find the time the stone reaches at maximum height. What is so special about the maximum height? V=0 (b) Find the maximum height. Could have used Formula 4! Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

12 Example of a Falling Object cnt’d
(c) Find the time for the stone to return to its original height (neglect air resistance). Also from Formula 3! (d) Find the velocity of the stone when it reaches its original height. (e) Find the velocity and position of the stone at t=5.00s. Velocity Position Wednesday, January 28, 2004 PHYS , Spring 2004 Dr. Andrew Brandt

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