Presentation on theme: "Motion Graphs. Motion & Graphs Motion graphs are an important tool used to show the relationships between position, speed, and time. It’s an easy way."— Presentation transcript:
Motion & Graphs Motion graphs are an important tool used to show the relationships between position, speed, and time. It’s an easy way to see how speed or position changes over time These types of graphs are called kinematic graphs. There are two types: –Position vs. Time graphs –Speed vs. Time Graphs
Position Vs. Time Used to show an object’s position at a given time. Position: on y-axis Time: on x-axis
You Try It: Graphing Position Vs. Time Suppose you are helping a friend who is training for a track meet. She wants to know if she is running at constant speed. You mark the track in 50-meter increments and measure her time at each position during a practice run. Create a position-time graph using her data. Time (s)Position (m)
You Try It: Graphing Position Vs. Time What would her speed be? –50m/10s = 5 m/s –100m/20s = 5 m/s Notice that this is a straight line - why??
You Try It: Graphing Position Vs. Time #2 Graph the motion of this car. Graph the points: (0,0), (1, 10), (2, 20), (3, 30), (4, 40), (5, 50). Your graph should look like this… What is this car’s velocity?
What does slope have to do with it? Slope is the ratio of the rise (y-axis) to the run (x-axis) of a line on a graph. A bigger slope means a steeper line which means a faster speed.
Steeper Line = Faster Speed
Negative Slopes What does this graph mean??? And this one? They show an object that is slowing down - or decelerating. The first graph is slowly decelerating, while the second graph is quickly decelerating.
Now consider a car that has a changing velocity.Now consider a car that has a changing velocity. It is not moving at a constant rate, but getting faster by the second.It is not moving at a constant rate, but getting faster by the second. What would this graph look like?What would this graph look like? You try it first …You try it first … Position Vs. Time - Changing Velocity
Does your graph look like this? Be sure you have this one drawn
What would the graph look like for a car that traveled 10 m in the 1 st second, 15 m by the 2 nd second, 25 by the 3 rd second, and 40 m by the 4 th second? You Try It: GrAPHING Position Vs. Time #3
Predict: What does THIS GRAPH show?
This graph is for a car moving with a constant velocity of +5 m/s for 5 seconds, stopping abruptly, and then remaining at rest for 5 seconds.This graph is for a car moving with a constant velocity of +5 m/s for 5 seconds, stopping abruptly, and then remaining at rest for 5 seconds. The straight line means its position is NOT changing.The straight line means its position is NOT changing.
Speed Vs. Time Used to show an object’s speed at a given time. Speed: on y-axis Time: on x-axis
Speed Vs. Time - Constant Speed This graph shows the speed versus time for a ball rolling at constant speed on a level floor. On a speed vs. time graph, constant speed is shown with a straight horizontal line. If you look at the speed on the y-axis, you see that the ball is moving at 1 m/s for the entire 10 seconds.
Speed Vs. Time - Constant Speed Lets make a speed-time graph and a position-time graph for a ball. Distance = 5m Time=10s Speed=2m/s Both of the graphs show the exact same motion, even though they look different.
You Try It: Graphing Speed Position Vs. Time Maria walks at a constant speed of 6 m/s for 5 seconds. Then, she runs at a constant speed of 10 m/s for 5 seconds. Create a speed-time graph using her data.
Speed Vs. Time - Changing Speed As we know, most objects don ’ t move at a constant speed. If a speed vs. time graph slopes up, then the speed is increasing. If it slopes down, then the speed is decreasing. If the graph is horizontal, then the object is moving at a constant speed. YOU MAY WANT TO DRAW THESE GRAPHS TOO!
Putting it All Together 1.Which runner won the race? –Albert won the race. He reached 100 meters first. 2.Which runner stopped for a rest? –Charlie stopped for a rest at 50m. 3.How long did he stop for? –Charlie stopped for 5 seconds. (13-8)
Putting it All Together 4. How long did Bob take to complete the race? –Bob finished the race in 14 seconds 5. Calculate Albert's average speed. –Speed = distance/time –Speed = 100m/12s = –Albert’s Speed = 8.3 m/s
Vectors Vectors: a representation of motion using a line with an arrow that shows direction and magnitude https://www.youtube.com/watch?v=b OIe0DIMbI8