DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION. AP Physics Section 2-1 Reference Frames and Displacement

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Transcription:

DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION AP Physics Section 2-1 Reference Frames and Displacement

Model the velocity of the ball from the time it leaves my hand till the time it hits the ground?

THINK ABOUT IT Is it a 1D or 2 D if it goes straight up and comes back? When will you call a ball traveling upwards 2D and WHY? If a car moves in a circle on the ground is it 1D or 2 D?

DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION Mechanics study of motion, force, energy Kinematics how objects move Dynamics why objects move Translational Motion move without rotation 2-1

VELOCITY Rate of change of position = Δx/Δt ACCELERATION Rate of change of Velocity = ΔV/Δt

AVERAGE AND INSTANTANEOUS VELOCITY V avg = Δx/Δt = (X f -X i )/(t f -t i ) V inst = Lim Δt->0 (Δx/Δt ) = dx/dt

AREA UNDER THE CURVE TOTAL DISPLACEMENT

AVERAGE AND INSTANTANEOUS ACCELERATION

DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION Positive up and right Negative down and left Graph in distant-time graph : 1. Constant position 2. Constant Velocity 3. Constant Acceleration 2-1

RECAP the Average Velocity / Average Speed In the qualifying round of the 50-yd freestyle in the sectional swimming championship, Dugan got an early lead by finishing the first 25.00 yd in 10.01 seconds. Dugan finished the return leg (25.00 yd distance) in 10.22 seconds. a. Determine Dugan's average speed for the entire race. b. Determine Dugan's average speed for the first 25.00 yd leg of the race. c. Determine Dugan's average velocity for the entire race. a. 2.472 yd/s b. 2.498 yd/s c. 0 yd/s

During the annual shuffleboard competition, Renee gives her puck an initial speed of 9.32 m/s. Once leaving her stick, the puck slows down at a rate of -4.06 m/s/s. a. Determine the time it takes the puck to slow to a stop. b. Use your initial speed and the calculated time to determine the average speed and the distance which the puck travels before stopping. a. 2.30 s b. 10.7 m

You drive a beat-up pickup truck along a straight road for 8.4 km at 70 km/hr., at which point the truck runs out of gasoline and stops. Over next 30 minutes, you walk another 2.0 km farther along the road to a gas station. (a) What is your over all displacement? (b) What is the time difference Δt from the beginning of your drive to your arrival at the station? (c) What is your average velocity from the beginning of your drive to your arrival at the station? Find both numerically and graphically.

The following equations give the position x(t) of a particle in four situations (in each equation, x is in meters, t is in seconds, and t > 0): (1) x = 3t - 2; (2) x = - 4t 2-2; (3) x = 2/t 2 ; (4) x = - 2. (a) In which situation is the velocity v of the particle constant? (b) In which situation is the velocity v in the negative x direction?

CLASSWORK 1 Work in groups to solve.

CONSTANT ACCELERATION- A SPECIAL CASE. Velocity increases or decreases at a constant rate.. (Draw the v-t graph)

What do you know about Constant Acceleration and Average velocity? For Constant Acceleration Avg Velocity is (V 0 +V f )/2 Because velocity function is linear

AVERAGE QUESTION A car slows down uniformly from a speed of 21.0 m/s to rest in 6.00s. How far did it travel in this time? x = 1 2 (v + v 0)t x = 1 2 (21m / s)(6s) = 63m 2-6

EQUATIONS OF MOTION GOVERNING THE CONSTANT ACCL. 2-4

THINK ABOUT IT! From the equation V 2 f V 2 0 = 2 a (X-X 0 ) Find out the Sign of Acceleration when 1. The object is travelling in + direction and speeding up 2. The object is travelling in + direction and slowing down 3. The object is travelling in - direction and speeding up 4. The object is travelling in - direction and slowing down DRAW IT OUT IN A CONSTANT ACCL. X-T AND V-T GRAPH

CHALLENGE PROBLEM A car is behind a truck going 25m/s on the highway. The car s driver looks for an opportunity to pass, guessing that his car can accelerate at 1.0m/s 2. He gauges that he has to cover the 20 m length of the truck, plus 10 m clear room at the rear of the truck and 10 m more at the front of it. In the oncoming lane, he sees a car approaching, probably also traveling at 25 m/s. He estimates that the car is about 400 m away. Should he attempt to pass? 2-6

DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION 1. Object car 2. Diagram 3. Known quantities Car relative truck Car relative to App. Car App. Car v 0 =0m/s 25m/s 25m/s a=1m/s 2 1m/s 2 0m/s 2 x=40m 360m (why?) 4. Physics car must travel 40 m to pass truck, approaching car can travel maximum of 400-40 m in that same period of time, or their paths overlap 2-6

DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION 5. Time for car to pass 2-6 s t s m m a x t at x at t v x x 8.94 / 1 ) 2(40 2 2 2 2 1 2 2 1 0 0 = = = = + + =

DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION 5. How far did the other car get in that time? t = 8.94s x = vt x = (25m / s)(8.94) x = 223.5m 2-6

DESCRIBING MOTION: KINEMATICS IN ONE DIMENSION Two common problems 1. Acceleration and velocity are always in the same direction a. No, as an object is thrown upward, velocity is +y, acceleration is y 2. Acceleration is zero at the highest point. a. No, at the highest point, the velocity is zero, but acceleration is always -9.80m/s 2 b. The object changes velocity, it must have an acceleration 2-7

YOU SHOULD BE ABLE TO- Evaluate Average and instantaneous velocities and acceleration Analyze graphs of 1D motions in x-t, v-t and a-t forms Be able to evaluate displacement, velocity or acceleration when one of the functions is given to you. Understand and identify constant acceleration equations and derive them Apply these equations to solve problems.

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