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Physics Lecture 11 Instructor: John H. Hamilton
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Lecture overview Position – Coordinate system Change in position with respect to time – Velocity Average velocity Instantaneous velocity Speed Graphical analysis – Slopes – Areas
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Position Position describes an objects location within space – For complete description we need 3 dimensions. But in many instances for analysis we can get by with 2 or even one dimension
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Position examples
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Motion is relative Motion is always relative to a reference frame – This is because if something is moving what we observe is it moving relative to something else Examples – On a train – On the earth
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Change in Position with respect to time Velocity- change in position with respect to time. Includes both the magnitude and direction. Example 45 km/hr North – Average velocity- this is the average velocity a body experiences over a given amount of time. It can be found be dividing the total change in displacement by the total time elapsed during that displacement – Instantaneous velocity-this is the velocity of an object at any given instant in time. Speed- is the magnitude of velocity without direction. Example- 45 km/hr – instantaneous – average
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Velocity example Making a round trip
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Velocity example Going around a curve
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Velocity example Taking a trip where ones speed varies
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Analyzing graphs for position and Velocity Remember the tables and graphs from the lecture on graphing
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Distance tables The first table shows the distance travelled by an object that is having its velocity increased constantly. The second table is of an object whose velocity is constant Distance travelled by Falling Objectdistance travelled by car on hwy time (s)distance (m)time (hr)Distance (km) 0.0 0 1.04.91.098 2.019.62.0196 3.044.13.0294 4.078.54.0392 5.0122.65.0490 6.0176.66.0588 7.0240.37.0686 8.0313.98.0784 9.0397.39.0882 10490.510980
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Constant Velocity
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Velocity increasing at a constant rate
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Velocity can be thought of… As the slope of the curve or line on a displacement/time graph. The slope of the curve at any particular point can be used to describe the Instantaneous velocity
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Plotting velocity as a function of time If we plot velocity with respect to time then – The area under the curve represents the distance travelled
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Constant velocity
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Velocity increasing at a constant rate
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Lecture Review Position – Coordinate system Change in position with respect to time – Velocity Average velocity Instantaneous velocity Speed Graphical analysis – Slopes – Areas
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