`q001. An automobile is traveling at 15 m/s at one instant, and 4 seconds later it is traveling at 25 m/s, then:
What is the average velocity of the automobile, assuming that its velocity changes at a constant rate?
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What is the change in the automobile's velocity?
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A ball is dropped in the automobile, and its velocity it observed to change by 2 meters / second in 1/4 of a second.
Which is speeding up more quickly, the ball or the automobile?
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If the ball's speed was 1 meter / second at the beginning of its 1/4-second interval, which traveled further, the automobile during its 4-second interval or the ball during its 1/4-second interval?
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If the ball kept speeding up at the same rate for 4 seconds, which would travel further during the 4-second interval?
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`q002. When an object of mass m is moving with velocity v, it has the following properties
Forces acting on objects can change their velocity, momentum and kinetic energy.
We will see later where these definitions come from and what they are good for.
Now, the automobile in the preceding has a mass of 1000 kg.
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`q003. Give your results for the experiment with the rotating strap and the dominoes, as indicated below.
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`q004. For the cars suspended on opposite sides of the pulley (we call this sort of system an Atwood Machine), four different forces are involved. Gravity pulls down on the more massive car, gravity pulls down on the less massive car, the tension on one end of the string pulls up on the more massive car, and the tension on the other end of the string pulls up on the less massive car. If the pulley is light an frictionless, which is the case here, the tension in the string is the same throughout.
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`q005. If a net force of 2000 dynes acts on a toy car through a distance of 30 cm in the direction of the force, then
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`q006. Explain why, when the two cars connected by the rubber band chain were dropped, the instructor failed to catch the car as intended. Avoid any reference to the instructor's coordination, reflexes or mental state.
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... what if given init vel in opp dir ... ?
`q007. It's fairly easy to establish that an object dropped from the instructor's chest height will fall freely to the floor in about 1/2 second.
Estimate how far the object would fall.
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What therefore would be its average velocity, assuming it was dropped from rest?
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At what aveage rate is its velocity therefore changing?
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`q008. A trapezoid on a graph of velocity v vs. clock time t has altitudes v_0 and v_f. Its width is `dt.
What is the rise of the trapezoid and what does it mean?
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What is the run of the trapezoid and what does it mean?
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What is the slope of the trapezoid and what does it mean?
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What is the average altitude of the trapezoid and what does it mean?
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What is the area of the trapezoid and what does it mean?
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`q009. At the beginning of the second question you were given six bits of information. You are going to need to use this information over and over. You would do well to memorize those six things, though a word-for-word repetition is not necessary. You will probably do so spontaneously as you use them over and over again to understand the behaviors of different systems.
How are you doing with these ideas?
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