Graphical Analysis of Motion AP Physics C Slope

Graphical Analysis of Motion AP Physics C

Slope – A basic graph model A basic model for understanding graphs in physics is SLOPE. Using the model - Look at the formula for velocity. Who gets to play the role of the slope? Velocity Who gets to play the role of the y-axis or the rise? Displacement Who get to play the role of the x-axis or the run? Time

Displacement vs. Time graph What is the velocity of the object from 0 seconds to 3 seconds? V=∆x/t= 30 m- 0 m/(3 s) = 10 m/s

Displacement vs. Time graph What is the velocity of the object from 7 seconds to 8 seconds? Once again. . . find the slope! v= ∆x/t = 0 m/s

Displacement vs. Time graph What is the velocity from 8 -10 seconds? You must remember! To find the change it is final - initial. v=∆x/t = -90 m/2 s = -45 m/s

Example It is very important that you are able to look at a graph and explain it's motion in great detail. These graphs can be very conceptual. Look at the time interval t = 0 to t = 9 seconds. What does the slope do? Object accelerates and speeds up while moving to the right. Look at the time interval t = 9 to t = 11 seconds. What does the slope do? Object is at rest. Look at the time interval t = 11 to t = 15 seconds. What does the slope do? Object moves at constant velocity while moving to the right. Look at the time interval t = 15 to t = 17 seconds. What does the slope do? Object moves at constant velocity while moving to the left.

Slope – A basic graph model Let’s look at another model Who gets to play the role of the slope? Acceleration Who gets to play the role of the y-axis or the rise? Velocity Who get to play the role of the x-axis or the run? Time What does all the mean? It means that if your are given a Velocity vs. Time graph. To find the acceleration of an object during specific time intervals simply find the slope.

Velocity vs. Time Graph What is the acceleration from 0 to 6 s? a=∆v/t= 60 m/s / 6 s = 10 m/s 2 What is the acceleration from 6 to 9 s? a=∆v/t = 0 m/s/ 3 s = 0 m/s 2 You could say one of two things here: Object does not accelerate or object moves at constant velocity. What is the acceleration from 14 to 15 s? a=∆v/t=-10 m/s/ 1 s = -10 m/s 2 A negative acceleration is sometimes called DECELERATION. Why is this not entirely accurate? Negative acceleration can mean that the object speeds up while moving in the negative direction or slows down while moving in the positive acceleration. Only the second scenario involves deceleration/

Velocity vs. Time Graph Conceptually speaking, what is the object doing during the time interval t = 9 to t = 13 seconds? Does the steepness or slope increase or decrease? The steepness decreases so the acceleration must be decreasing as well.

Area – the “other” basic graph Another basic model for understanding graphs in model physics is AREA. Let's try to algebraically make our formulas look like the one above. We'll start with our formula for velocity. d=vt Who gets to play the role of the base? Time Who gets to play the role of the height? Velocity What kind of graph is this? Velocity vs Time Who gets to play the role of the Area? Displacement

Example What is the displacement during the time interval t = 0 to t = 5 seconds? What is the displacement during the time interval t = 8 to t = 12 seconds? During this time period we have a triangle AND a square. We must find the area of each section then ADD them together.

Area – the “other” basic graph Let's use our new model again, but for our equation for model acceleration. What does this mean? Who gets to play the role of the base? Time Who gets to play the role of the height? Acceleration What kind of graph is this? An Acceleration vs. Time graph ( acceleration = y-axis & time = x-axis) Who gets to play the role of the Area? The Velocity

Acceleration vs. Time Graph What is the velocity during the time interval t = 3 and t = 6 seconds? (∆v) = at ∆v=at = 6 m/s 2 (3 s) = 18 m/s

Summary There are 3 types of MOTION graphs n Displacement(position) vs. Time n Velocity vs. Time n Acceleration vs. Time There are 2 basic graph models n Slope n Area

sl area = x t (s) a (m/s/s) = a v (m/s) op e sl x (m) = v Summary t (s) area = v t (s)

Comparing and Sketching graphs op e sl x (m) = v One of the more difficult applications of graphs in physics is when given a certain type of graph and asked to draw a different type of graph t (s) How could you translate what the SLOPE is doing on the graph ABOVE to the Y axis on the graph to the right? v (m/s) t (s)

Example v (m/s) x (m) t (s) 1 st line • constant velocity • left moving 2 nd Line Object is at rest 3 rd line • Object moves at constant velocity • Moves to right

Example – Graph Matching What is the SLOPE(a) doing? a (m/s/s) v (m/s) t (s) a (m/s/s) t (s)

V-t Graph Problem 1 Calculate the following: 1. Acceleration from 0 -10 s 2. Distance traveled from 10 -15 s 3. Displacement from 15 -40 s 4. Acceleration from 40 -55 s 5. Displacement after 55 s Draw the corresponding a-t graph

V-t graph problem 2 Draw a corresponding a-t graph. Find the distance Traveled from 0 -10 s

1. Match each of the following vt graphs with the corresponding at graph

2. The following graph shows the position of a roller coaster as Explain the object’s it changes with time. motion over each interval.

3. A particle has the acceleration versus time graph shown below: Draw the corresponding v-t and xt graphs.