1.  State the definition of rate of change.

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2.  State the definition of velocity.

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3.  State the definition of acceleration.

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4.  A ball rolls along a path, moving from position 20 cm to position 50 cm as its velocity increases from 5 cm/s to 15 cm/s.

• What is its change in velocity and how do you obtain it from the given information?  &&&&

There are four different quantities given here.  Two are velocities and two are accelerations.  How can you tell which is which?  ##

There are four different quantities given here.  Two occur at the beginning of the interval and two at the end.  How can you tell which is which?  ##

What are the units of velocity?  ##

Which of the given quantities are velocities?  ##

What is the velocity at the beginning of the interval, and what is the velocity at the end?  ##

By how much does velocity change from the beginning of the interval to the end?  ##

• What is its change in position and how do you obtain it from the given information?  &&&&

What are the units of position?  ##

Which of the given quantities are positions?  ##

What is the position at the beginning of the interval, and what is the position at the end?  ##

By how much does position change from the beginning of the interval to the end?  ##

5.  A ball accelerates from velocity 30 cm/s to velocity 80 cm/s during a time interval lasting 10 seconds.  Its v vs. t graph is a straight line (i.e., acceleration is uniform).

Explain in detail how to use the definitions you gave above to reason out

• the average velocity of the ball during this interval, &&&&

What are the units of velocity?  ##

What units do you get if you divide cm/s by seconds?  Do you get a unit of velocity? ##

Is it possible to get an average velocity by dividing a quantity in cm/s by seconds? ##

Explain why you don't get an average velocity if you subtract the two velocities and divide by 10 seconds. ##

Should the average velocity be closer to the initial or the final velocity, or is neither of these choices correct? ##

What is the average velocity for this interval? ##

Is the average velocity you have given closer to the initial than the final velocity? ##

Is the average velocity you have given closer to the final than the initial velocity? ##

Explain how the average velocity should be calculated using the given information. ##

and

• what its acceleration during this interval.  &&&&

What is the definition of acceleration? ##

How do you therefore calculate the acceleration? ##

What are the units of acceleration? ##

What units do you get if you multiply cm/s by seconds?  Is the result a unit of acceleration? ##

When you calculate the acceleration, your calculation involve a division, which can be written as a fraction. What is the numerator, how is it related to the definition of acceleration, what does it mean and what are its units? ##

What is the denominator, how is it related to the definition of acceleration, what does it mean and what are its units? ##

What therefore is the acceleration and what are its units? ##

Remember, the main goal is to use a detailed reasoning process which connects the given information to the two requested results.  You should use units with every quantity that has units, units should be included at every step of the calculation, and the algebraic details of the units calculations should be explained.

6.  A ‘graph trapezoid’ has ‘graph altitudes’ of 40 cm/s and 10 cm/s, and its base is 6 seconds.  Explain in detail how to find each of the following:

• The rise of the graph trapezoid.  &&&&

What are the altitudes of this trapezoid, what are their units and what do they mean?  ## 

How is the rise of the trapezoid calculated, what are the meanings of the quantities used to calculate it, and what are the units of the rise? ##

What therefore is the meaning of the rise? ##

What is the run, what are its units, and what does it mean? ##

What therefore##

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##

• The run of the graph trapezoid.  &&&&
• The slope associated with the trapezoid.  &&&&
• The dimensions of the equal-area rectangle associated with the trapezoid.  &&&&
• The area of the trapezoid. &&&&

Each calculation should include the units at every step, and the algebraic details of the units calculations should be explained.

7.  If the altitudes of a ‘graph trapezoid’ represent the initial and final positions of a ball rolling down an incline, in meters, and the based of the trapezoid represents the time interval between these positions in seconds, then

• What is the rise of the graph trapezoid and what are its units?  &&&&
• What is the run of the graph trapezoid and what are its unit?  &&&&
• What is the slope of the trapezoid and what are its units?  &&&&
• What is the area of the trapezoid and what are its units?  &&&&
• What, if anything, does the slope represent?  &&&&
• What is the altitude of the equal-area rectangle and what are its units?  &&&&
• What is the base of the equal-area rectangle and what are its units?  &&&&
• What, if anything, does the area represent?  &&&&

Each answer should include a complete explanation, reasoned out from the geometry of the trapezoid and the definitions you gave at the beginning.

8.  If the altitudes of a ‘graph trapezoid’ represent the initial and final velocities of a ball rolling down an incline, in meters / second, and the based of the trapezoid represents the time interval between these velocities in seconds, then

• What is the slope of the trapezoid and what are its units?  &&&&
• What is the area of the trapezoid and what are its units?  &&&&
• What, if anything, does the slope represent?  &&&&
• What, if anything, does the area represent?  &&&& 

Each answer should include a complete explanation, reasoned out from the geometry of the trapezoid and the definitions you gave at the beginning.

9.  A ball rolls along a path, moving from position 20 cm to position 50 cm as its velocity increases from 5 cm/s to 15 cm/s.

• If its acceleration is uniform, then how long does this take, and what is the ball’s acceleration?    &&&&