Introduction to 1-D Motion Distance versus...
Transcript of Introduction to 1-D Motion Distance versus...
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Introduction to 1-D Motion Distance versus
Displacement
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Kinematics
! Kinematics is the branch of mechanics that describes the motion of objects without necessarily discussing what causes the motion.
! 1-Dimensional Kinematics (or 1-Dimensional motion) refers to motion in a straight line.
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Distance
! The total length of the path traveled by an object is called distance.
! “How far have you walked?” is a typical distance question.
! The SI unit of distance is the meter (m).
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Displacement (Δx)
! The change in the position of a particle is called displacement.
! Δ is a Greek letter used to represent the words “change in”. Δx therefore means “change in x”. It is always calculated by final value minus initial value.
! “How far are you from home?” is a typical displacement question.
! The SI unit for displacement is the meter. ! Calculation of displacement:
f ix x xΔ = −
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A
B
50 m displacement
100 m
distance
Distance vs Displacement
! A picture can help you distinguish between distance and displacement.
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Questions
! Does the odometer in your car measure distance or displacement?
! Can you think of a circumstance in which it measures both distance and displacement?
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Practice Problem: Two tennis players approach the net to congratulate one another after a game. a) Find the distance and displacement of player A. b) Repeat for player B.
A B 5 m 2 m
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Practice Problem: If Δx is the displacement of a particle, and d is the distance the particle traveled during that displacement, which of the following is always a true statement? a) d = |Δx| b) d < |Δx| c) d > |Δx| d) d > |Δx| e) d < |Δx|
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Practice Problem A particle moves from x = 1.0 meter to x = -1.0 meter. What is the distance d traveled by the particle?
What is the displacement of the particle?
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Practice Problem: You are driving a car on a circular track of diameter 40 meters. After you have driven around 2 ½ times, how far have you driven, and what is your displacement?
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Average Speed and Velocity
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Average Speed
! Average speed describes how fast a particle is moving. The equation is:
Average speed is always a positive number.
! where: save = average speed d = distance Δt = elapsed time ! The SI unit of speed is the m/s
avedst
=Δ
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Average Velocity
! Average velocity describes how fast the displacement is changing. The equation is:
Average velocity is + or – depending on direction.
! where: vave = average velocity Δx = displacement Δt = elapsed time ! The SI unit of velocity is the m/s.
avexvt
Δ=Δ
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Qualitative Demonstrations
1) Demonstrate the motion of a particle that has an average speed and an average velocity that are both zero.
2) Demonstrate the motion of a particle that has an average speed and an average velocity that are both nonzero.
3) Demonstrate the motion of a particle that has an average speed that is nonzero and an average velocity that is zero.
4) Demonstrate the motion of a particle that has an average velocity that is nonzero and an average speed that is zero.
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Quantitative Demonstration ! You are a particle located at the origin. Demonstrate
how you can move from x = 0 to x = 10.0 and back with an average speed of 0.5 m/s.
! What the particle’s average velocity for the above
demonstration?
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Practice Problem: How long will it take the sound of the starting gun to reach the ears of the sprinters if the starter is stationed at the finish line for a 100 m race? Assume that sound has a speed of about 340 m/s.
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Practice Problem: You drive in a straight line at 10 m/s for 1.0 km, and then you drive in a straight line at 20 m/s for another 1.0 km. What is your average velocity?
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Instantaneous Velocity
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Graphical Problem
Demonstrate the motion of this particle.
t
x
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Graphical Problem
Demonstrate the motion of this particle.
t
x
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Graphical Problem
What physical feature of the graph gives the constant velocity from A to B?
t
x Δx
Δt A
B vave = Δx/Δt
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Graphical Problem: Determine the average velocity from the graph.
x (m)
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Graphical Review Problem
Demonstrate the motion of these two particles.
t
x
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Graphical Problem
Demonstrate the motion of these two particle.
t
v
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Graphical Problem
t
x
What kind of motion does this graph represent?
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Graphical Problem
Can you determine average velocity from the time at point A to the time at point B from this graph?
t
x A B Δx
Δt
vave = Δx/Δt
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Graphical Problem: Determine the average velocity between 1 and 4 seconds.
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Instantaneous Velocity
! The velocity at a single instant in time. ! If the velocity is uniform, or constant,
the instantaneous velocity is the same as the average velocity.
! If the velocity is not constant, than the instantaneous velocity is not the same as the average velocity, and we must carefully distinguish between the two.
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Instantaneous Velocity
Draw a tangent line to the curve at B. The slope of this line gives the instantaneous velocity at that specific time.
t
x B Δx
Δt
vins = Δx/Δt
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Practice Problem: Determine the instantaneous velocity at 1.0 second.
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Acceleration
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Acceleration (a)
! Any change in velocity over a period of time is called acceleration.
! The sign (+ or -) of acceleration indicates its direction.
! Acceleration can be… ! speeding up ! slowing down ! turning
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Questions
! If acceleration is zero, what does this mean about the motion of an object?
! Is it possible for a racecar circling a
track to have zero acceleration?
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Uniform (Constant) Acceleration ! In Physics 1, we will generally assume
that acceleration is constant. ! With this assumption we are free to use
this equation:
! The SI unit of acceleration is the m/s2.
vat
Δ=Δ
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Acceleration in 1-D Motion has a sign!
! If the sign of the velocity and the sign of the acceleration is the same, the object speeds up.
! If the sign of the velocity and the sign of the acceleration are different, the object slows down.
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Qualitative Demonstrations
1) Demonstrate the motion of a particle that has zero initial velocity and positive acceleration.
2) Demonstrate the motion of a particle that has zero initial velocity and negative acceleration.
3) Demonstrate the motion of a particle that has positive initial velocity and negative acceleration.
4) Demonstrate the motion of a particle that has negative initial velocity and positive acceleration.
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Practice Problem: A 747 airliner reaches its takeoff speed of 180 mph in 30 seconds. What is its average acceleration?
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Practice Problem: A horse is running with an initial velocity of 11 m/s, and begins to accelerate at –1.81 m/s2. How long does it take the horse to stop?
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Graphical Problem
Demonstrate the motion of this particle. Is it accelerating?
t (s)
v (m/s) 0.50
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Graphical Problem
Demonstrate the motion of this particle. Is it accelerating?
t
v
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Graphical Problem
What physical feature of the graph gives the acceleration?
t
v Δv
Δt A
B a = Δv/Δt
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Practice Problem: Determine the acceleration from the graph.
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How would you describe the motion of this particle?
Practice Problem: Determine the displacement of the object from 0 to 4 seconds.
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Kinematic Equations and Graphs
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Position vs Time Graphs ! Particles moving with no
acceleration (constant velocity) have graphs of position vs time with one slope. The velocity is not changing since the slope is constant.
! Position vs time graphs for particles moving with constant acceleration look parabolic. The instantaneous slope is changing. In this graph it is increasing, and the particle is speeding up.
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Uniformly Accelerating Objects
! You see the car move faster and faster. This is a form of acceleration.
! The position vs time graph for the accelerating car reflects the bigger and bigger Δx values.
! The velocity vs time graph reflects the increasing velocity.
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Describe the motion ! This object is moving in the
positive direction and accelerating in the positive direction (speeding up).
! This object is moving in the negative direction and accelerating in the negative direction (speeding up).
! This object is moving in the negative direction and accelerating in the positive direction (slowing down).
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Draw Graphs for Stationary Particles
x
t
Position vs
time
v
t
Velocity vs
time
a
t
Acceleration vs
time
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Draw Graphs for Constant Non-zero Velocity
x
t
Position vs
time
v
t
Velocity vs
time
a
t
Acceleration vs
time
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Draw Graphs for Constant Non-zero Acceleration
x
t
Position vs
time
v
t
Velocity vs
time
a
t
Acceleration vs
time
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Kinematic Equations
212
2 20 2 ( )
o
o o
v v atx x v t at
v v a x
= +
= + +
= + Δ
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Practice Problem: What must a particular Olympic sprinter’s acceleration be if he is able to attain his maximum speed in ½ of a second?
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Practice Problem: A plane is flying in a northwest direction when it lands, touching the end of the runway with a speed of 130 m/s. If the runway is 1.0 km long, what must the acceleration of the plane be if it is to stop while leaving ¼ of the runway remaining as a safety margin?
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Practice Problem: On a ride called the Detonator at Worlds of Fun in Kansas City, passengers accelerate straight downward from 0 to 20 m/s in 1.0 second. a) What is the average acceleration of the passengers on this ride?
b) How fast would they be going if they accelerated for an additional second at this rate?
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Practice Problem -- continued c) Sketch approximate x-vs-t, v-vs-t and a-vs-t graphs for this ride.
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Practice Problem: Air bags are designed to deploy in 10 ms. Estimate the acceleration of the front surface of the bag as it expands. Express your answer in terms of the acceleration of gravity g.
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Practice Problem: You are driving through town at 12.0 m/s when suddenly a ball rolls out in front of you. You apply the brakes and decelerate at 3.5 m/s2. a) How far do you travel before stopping?
b) When you have traveled only half the stopping distance, what is your speed?
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Practice Problem -- continued c) How long does it take you to stop?
d) Draw x vs t, v vs t, and a vs t graphs for this.
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Free Fall
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Free Fall
! Free fall is a term we use to indicate that an object is falling under the influence of gravity, with gravity being the only force on the object.
! Gravity accelerates the object toward the earth the entire time it rises, and the entire time it falls.
! The acceleration due to gravity near the surface of the earth has a magnitude of 9.81 m/s2. The direction of this acceleration is DOWN.
! Air resistance is ignored.
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Practice Problem: You drop a ball from rest off a 120 m high cliff. Assuming air resistance is negligible,
a) how long is the ball in the air?
b) what is the ball’s speed and velocity when it strikes the ground at the base of the cliff?
c) sketch approximate x-vs-t, v-vs-t, a-vs-t graphs for this situation.
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Practice Problem: You throw a ball straight upward into the air with a velocity of 20.0 m/s, and you catch the ball some time later. a) How long is the ball in the air?
b) How high does the ball go?
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Practice Problem -- continued c) What is the ball’s velocity when you catch it?
d) Sketch approximate x-vs-t, v-vs-t, a-vs-t graphs for this situation.
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Symmetry in Free Fall
! When something is thrown straight upward under the influence of gravity, and then returns to the thrower, this is very symmetric.
! The object spends half its time traveling up; half traveling down.
! Velocity when it returns to the ground is the opposite of the velocity it was thrown upward with.
! Acceleration is 9.81 m/s2 and directed DOWN the entire time the object is in the air!
! Let’s see some demos!
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Free Fall II
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Reflex Testing Lab
! Using a meter stick, determine your reaction time.
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Pinewood Derby
x(m) 0 2.3 9.2 20.7 36.8 57.5 t(s) 0 1.0 2.0 3.0 4.0 5.0
On your graph paper, do the following. a) Draw a position vs time graph for the car. b) Draw tangent lines at three different points on the curve to determine the instantaneous velocity at all three points. c) On a separate graph, draw a velocity vs time graph using the instantaneous velocities you obtained in the step above. d) From your velocity vs time graph, determine the acceleration of the car.