course PHY201 pXѹ昜Hˣassignment #003
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20:34:58 `q001. Note that there are 11 questions in this assignment. vAve = `ds / `dt, which is the definition of average velocity and which fits well with our intuition about this concept. If displacement `ds is measured in meters and the time interval `dt is measured in seconds, in what units will vAve be obtained?
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RESPONSE --> If ds is measured in meters and dt is measured in sec, then vAve will be measured in meters/seconds. confidence assessment: 3
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20:35:24 vAve = `ds / `dt. The units of `ds are cm and the units of `dt are sec, so the units of `ds / `dt must be cm / sec. Thus vAve is in cm/s.
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RESPONSE --> I thought ds was in meters? self critique assessment: 3
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20:37:25 `q002. If the definition equation vAve = `ds / `dt is to be solved for `ds we multiply both sides of the equation by `dt to obtain `ds = vAve * `dt. If vAve is measured in cm / sec and `dt in sec, then in what units must `ds be measured?
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RESPONSE --> For the equation `ds = vAve * `dt, where vAve is measured in cm/sec and dt is measured in seconds, then ds will be measured in cm. confidence assessment: 3
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20:37:34 Since vAve is in cm/sec and `dt in sec, `ds = vAve * `dt must be in units of cm / sec * sec = cm.
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RESPONSE --> self critique assessment: 3
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20:39:28 `q003. Explain the algebra of multiplying the unit cm / sec by the unit sec.
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RESPONSE --> cm/sec * sec = (cm * sec) / sec = cm the two seconds units will cancel each other out. confidence assessment: 3
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20:39:41 When we multiply cm/sec by sec we are multiplying the fractions cm / sec and sec / 1. When we multiply fractions we will multiply numerators and denominators. We obtain cm * sec / ( sec * 1). This can be rearranged as (sec / sec) * (cm / 1), which is the same as 1 * cm / 1. Since multiplication or division by 1 doesn't change a quantity, this is just equal to cm.
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RESPONSE --> self critique assessment: 3
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20:41:37 `q004. If the definition vAve = `ds / `dt is to be solved for `dt we multiply both sides of the equation by `dt to obtain vAve * `dt = `ds, then divide both sides by vAve to get `dt = `ds / vAve. If vAve is measured in km / sec and `ds in km, then in what units must `dt be measured?
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RESPONSE --> For the equation `dt = `ds / vAve where vAve is measured in km/sec and ds is measured in km, dt must be measured in sec. confidence assessment: 3
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20:41:45 Since `dt = `ds / vAve and `ds is in km and vAve in km/sec, `ds / vAve will be in km / (km / sec) = seconds.
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RESPONSE --> self critique assessment: 3
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20:43:37 `q005. Explain the algebra of dividing the unit km / sec into the unit km.
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RESPONSE --> km / (km/sec) = (km * sec) / km = sec / 1 = sec confidence assessment: 3
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20:43:49 The division is km / (km / sec). Since division by a fraction is multiplication by the reciprocal of the fraction, we have km * (sec / km). This is equivalent to multiplication of fractions (km / 1) * (sec / km). Multiplying numerators and denominators we get (km * sec) / (1 * km), which can be rearranged to give us (km / km) * (sec / 1), or 1 * sec / 1, or just sec.
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RESPONSE --> self critique assessment: 3
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20:54:23 `q006. If an object moves from position s = 4 meters to position s = 10 meters between clock times t = 2 seconds and t = 5 seconds, then at what average rate is the position of the object changing (i.e., what is the average velocity of the object) during this time interval? What is the change `ds in position, what is the change `dt in clock time, and how do we combine these quantities to obtain the average velocity?
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RESPONSE --> First we need to solve for change in distance, ds, and then change is time, dt. After obtaining these values we plug them into the formula, vAve = ds / dt to find the average velocity. ds = (s2 - s1) = (10m - 4m) = 6m dt = (t2 - t1) = (5s - 2s) = 3s vAve = ds / dt = 6m / 3s = 2m/s confidence assessment: 3
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20:54:38 We see that the changes in position and clock time our `ds = 10 meters - 4 meters = 6 meters and `dt = 5 seconds - 2 seconds = 3 seconds. We see also that the average velocity is vAve = `ds / `dt = 6 meters / (3 seconds) = 2 meters / second. Comment on any discrepancy between this reasoning and your reasoning.
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RESPONSE --> self critique assessment: 3
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20:55:39 `q007. Symbolize this process: If an object moves from position s = s1 to position s = s2 between clock times t = t1 and t = t2, when what expression represents the change `ds in position and what expression represents the change `dt in the clock time?
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RESPONSE --> ds = (s2 - s1) dt = (t2 - t1) confidence assessment: 3
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20:56:10 We see that the change in position is `ds = s2 - s1, obtained as usual by subtracting the first position from the second. Similarly the change in clock time is `dt = t2 - t1. What expression therefore symbolizes the average velocity between the two clock times.
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RESPONSE --> vAve = ds / dt self critique assessment: 3
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21:06:04 `q008. On a graph of position s vs. clock time t we see that the first position s = 4 meters occurs at clock time t = 2 seconds, which corresponds to the point (2 sec, 4 meters) on the graph, while the second position s = 10 meters occurs at clock time t = 5 seconds and therefore corresponds to the point (5 sec, 10 meters). If a right triangle is drawn between these points on the graph, with the sides of the triangle parallel to the s and t axes, the rise of the triangle is the quantity represented by its vertical side and the run is the quantity represented by its horizontal side. This slope of the triangle is defined as the ratio rise / run. What is the rise of the triangle (i.e., the length of the vertical side) and what quantity does the rise represent? What is the run of the triangle and what does it represent?
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RESPONSE --> Rise represents ds and is parallel to the vertical plane, so: Rise = ds = (s2 - s1) = (10m - 4m) = 6m Run represents dt and is parallel to the horizontal plane, so: Run = dt = (t2 - t1) = (5s - 2s) = 3s Rise over Run equals the slope (m). Rise / Run = m = vAve = ds / dt = 6m/3s =2m/s confidence assessment: 3
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21:06:11 The rise of the triangle represents the change in the position coordinate, which from the first point to the second is 10 m - 4 m = 6 m. The run of the triangle represents the change in the clock time coordinate, which is 5 s - 2 s = 3 s.
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RESPONSE --> self critique assessment: 3
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21:07:24 `q009. What is the slope of this triangle and what does it represent?
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RESPONSE --> The slope is.... m = Rise/Run = 6 / 3 = 2 / 1 = 2 confidence assessment: 3
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21:07:32 The slope of this graph is 6 meters / 3 seconds = 2 meters / second.
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RESPONSE --> self critique assessment: 3
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21:09:34 `q010. In what sense does the slope of any graph of position vs. clock time represent the velocity of the object? For example, why does a greater slope imply greater velocity?
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RESPONSE --> In a sense the slope represent the average velocity under uniform acceleration. A greater slope implies a greater velocity; because it implies a greater rate of change in distance over the same amount of time. confidence assessment: 3
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21:09:59 Since the rise between two points on a graph of velocity vs. clock time represents the change in `ds position, and since the run represents the change `dt clock time, the slope represents rise / run, or change in position /change in clock time, or `ds / `dt. This is the definition of average velocity.
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RESPONSE --> self critique assessment: 3
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21:17:25 `q011. As a car rolls from rest down a hill, its velocity increases. Describe a graph of the position of the car vs. clock time. If you have not already done so, tell whether the graph is increasing at an increasing rate, increasing at a decreasing rate, decreasing at an increasing rate, decreasing at a decreasing rate, increasing at a constant rate or decreasing at a constant rate. Is the slope of your graph increasing or decreasing? How does the behavior of the slope of your graph indicate the condition of the problem, namely that the velocity is increasing?
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RESPONSE --> If a car rolls down a hill from a rest, a graph of the position of the car vs. clock time would show velocity increasing at an increasing rate. The acceleration of the vehicle would not be uniform. confidence assessment: 3
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21:17:46 The graph should have been increasing, since the position of the car increases with time (the car gets further and further from its starting point). The slope of the graph should have been increasing, since it is the slope of the graph that indicates velocity. An increasing graph within increasing slope is said to be increasing at an increasing rate.
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RESPONSE --> self critique assessment: 3
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