Motion Graphs Physics 4(A). Learning Objectives Understand and interpret graphs related to motion Understand the relationship between the graphs of position,

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Presentation transcript:

Motion Graphs Physics 4(A)

Learning Objectives Understand and interpret graphs related to motion Understand the relationship between the graphs of position, velocity, and acceleration List examples of real-time motion capture technology Motion Graphs

Independent variable – the variable that does not depend on another variable – Time Dependent variable – the variable that will be studied for change based on the independent variable – Position – Velocity – Acceleration Variables

Graphs represent the relationship between variables – Independent variable on the x-axis – Dependent variable on the y-axis Graphs

Position graph – displays location relative to an origin through time Position Graphs Position (m) Time (s)

Velocity graph – displays the rate of change in position through time Velocity Graphs Velocity (m/s) Time (s)

Velocity graph – displays the rate of change in position through time Velocity Graphs Velocity (m/s) Time (s)

Acceleration graph – displays the rate of change in velocity through time Acceleration Graphs Acceleration (m/s 2 ) Time (s)

Notice the relationship between acceleration, velocity, and position graphs Motion Graphs

Motion Animation Zero Acceleration Small Acceleration Large Acceleration

Photogate – A device that measures precise amounts of time – Measures the amount of time that an infrared beam is blocked – Can be used to determine the velocity of an object Radar Gun – Measures the shift in frequency of a signal that is sent to a moving object – A device that measures the velocity of an object Motion Capture Devices

Ex) A student uses a real-time motion detector to record the velocity of a ball thrown straight up in the air and then caught at the same location. Assume up is the positive direction. Which velocity versus time graph would resemble the correct velocity graph of the ball? Graphing Motion Capture Data Velocity (m/s) Time (s) Velocity (m/s) Time (s)

Ex) In the same scenario, what would the position versus time graph look like if up is positive? Graphing Motion Capture Data Position (m) Time (s) Position (m) Time (s) Position (m) Time (s) Position (m)

Conclusions During time 0 s to 10 sSlowed down from 87 mph to 62 mph During time 0 s to 3 sConstant velocity of 87 mph (0 acceleration) During time 3 s to 8 sConstant acceleration of -5 mph/s During time 8 s to 10 sConstant velocity of 62 mph (0 acceleration) Ex) A police officer uses a radar gun to show the instantaneous velocity of a car. The table shows the data collected from the radar gun. What conclusions can be drawn from the data and what graphs can be created? Graphing Motion Capture Data Time (s)Velocity (mph)

Graphing Motion Capture Data Velocity (mph) Time (s) Acceleration (mph/s) Time (s) Velocity (mph)

Learning Objectives Understand and interpret graphs related to motion Understand the relationship between the graphs of position, velocity, and acceleration List examples of real-time technology used to capture motion Motion Graphs