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Дата изменения: Tue Oct 20 23:49:23 1998
Дата индексирования: Mon Oct 1 23:45:57 2012
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Impulse and Time

IMPULSE AND TIME

Now its time to take a little more formal look at what we have been doing experimentally.

The part of physics that deals with the position and velocities of moving objects is called kinematics .

Our measurements of the positions of objects in free fall as a function of time is a way to experimentally define kinematics and from our experimental data the equations of kinematics can be recovered.

We have also been dealing with the concept of force although this has been an implicit part of our activities to date. For instance,

Today we will see how force convolved with time produces different behavior. This is known as impulse

One way to describe kinematics is in a position vs time graph (the kind you are supposed to be making for the first homework assignment). An example is shown below

We can define the average velocity as the change in position divided by the change in time or:

Dp / Dt

which is the slope of the line in the position vs time graph. By graphical means we then determine the velocity at any time by determining the slope on the graph at that time. This is what calculus is about but we aren't doing that here.

Consider now the behavior of a fan cart, such as the one we are using in lecture today:

If we plot the velocity versus time of this cart we might get some data which looked like this:

Where we see that there are obvious changes in the velocity at various times. We are interested in understand what causes these changes in velocity.

The fan attachment exerts an almost constant force on the cart. What is the relationship between that strength of that force and the cart's acceleration?

Possible hypothesis