Homework Answers
1a. the graph is a straight line whose slope is equal to velocity.
1b. slower motion graph has less slope than fast motion graph.
1c. towards sensor = motion graph is decreasiong = has negative slope
away from sensor = graph is increasing = has +ve slope
1d. graph is straight line parallel to time axis.
1e. slow motion graph is closer to time axis
fast motion graph is far distant from time axis
1f. motion towards sensor = graph below time axis
motion away from sensor = graph is above time axis
2. no it s not possible . It means infinite velocity.
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Experiment AM Position and Velocity Comprehension Questions 1. You have worked with graphs for four different...
10. Move the Motion Sensor. Place the Motion Sensor at the bottom of the track pointing...
10. Move the Motion Sensor. Place the Motion Sensor at the bottom of the track pointing up the track. 11. Check the Motion Sensor. Start with the cart at least 50 em in front of the sensor. Practice pushing the cart up the track so the cart doesn't go over the top of the track and stopping the cart before it gets within the 50 em of the sensor. Start the sensor and push the carit up the track. Stop...
Position vs Time Graphs A low friction cart traveling toward a motion detector device bumps into...
Position vs Time Graphs A low friction cart traveling toward a motion detector device bumps into a barrier and subsequently travels away from the detector. Which one of the following graphs of position (x) versus time (t) could represent this motion? B А D С
please double check my answers Prelab 3 Questions Motion Graphs 1 According to Appendix B, an...
please double check my answers
Prelab 3 Questions Motion Graphs 1 According to Appendix B, an independent variable in an experiment is one that is kept the same in every trial. a | True False 2 For reliable readings, the cart should never get closer than 15 cm to the motion sensor. a True b False 3. If you execute a best-fit line for data on a graph of position vs. time, what units does the line's (vertical) intercept have?...
For each of the velocity vs. time graphs below, sketch possible corresponding position vs. time and...
For each of the velocity vs. time graphs below, sketch possible
corresponding position vs. time and acceleration vs. time graphs.
To the right of the graph, briefly describe the motion of the
object and why the graphs you drew are consistent with the velocity
graph. Where is the object at time t = 0 in each case?
Explain.
What is the total distance traveled by the particle? What Velocity vs. Time Graphs Can Tell...
What is the total distance traveled by the particle?
What Velocity vs. Time Graphs Can Tell You Constants A common graphical representation of motion along a straight line is the v vs. t graph, that is, the graph of (instantaneous) velocity as a function of time. In this graph, time t is plotted on the horizontal axis and velocity v on the vertical axis. Note that by definition, velocity and acceleration are vector quantities. In straight-line motion, however, these vectors...
constant velocity and constant acceleration experiment pls only correct answers and clear handwriting thanks General Form...
constant velocity and constant acceleration experiment pls
only correct answers and clear handwriting thanks
General Form of Linear equation Y=mx+b m is the slope b is the y-intercept General Form of Quadratic equation y=A+BX+C A is the quadratic coefficient B is the linear coefficient C is the Constant Constant Velocity (Motorized Cart) 10 Pistol 05 Times Y=mx+b X=Vt+Xo m is the slope: m is the Velocity = 0.210 m/s (21 cm/s) b is the y-intercept: b is the initial Position...
Please explain For each of the velocity vs. time graphs below, sketch possible comesponding position vs....
Please explain
For each of the velocity vs. time graphs below, sketch possible comesponding position vs. time and acceleration vs. time graphs. To the right of the graph, briefly describe the motion of the object and why the graphs you drew are consistent with the velocity graph. Where is the object at time t 0 in each case? Explain
3. The following graph is a velocity-position plot that shows the velocity v versus height y...
3. The following graph is a velocity-position plot that shows the velocity v versus height y of a ball that is tossed directly upward in the vertical direction. (Note: this is a different type of graph compared to the position-time and velocity-time graphs that you have seen in class.) a. What part of the ball's motion does this graph describe? (In other words, does it describe the ball's total overall motion up and down? Only the upward motion? Only the...
Part 2: Velocity vs. Time 1. For each velocity vs. time graph (Graph 3 and 4), describe how you w...
Part 2: Velocity vs. Time 1. For each velocity vs. time graph (Graph 3 and 4), describe how you would walk in order to replicate the 1-D motion graph. Use words such as away, toward, at rest, speeding up, slowing down, constant speed. Be specific with your time periods. 2. For each velocity vs. time graph, create the corresponding position and acceleration versus time graphs. Construct your graph on a computer program such as Microsoft ExcelB. If you do not...
cally up from a moving cart. The position of the balls to raph below shows the...
cally up from a moving cart. The position of the balls to raph below shows the position of the ball at equal time inter- A ball is fired vertically up from a mo the left of the graph below showst vals, as would be seen by the person on the cart. a. For this person the motion is sym- metric in time so positions on the way down are the same as on the way up, so only one ball...
10. Move the Motion Sensor. Place the Motion Sensor at the bottom of the track pointing up the track. 11. Check the Motion Sensor. Start with the cart at least 50 em in front of the sensor. Practice pushing the cart up the track so the cart doesn't go over the top of the track and stopping the cart before it gets within the 50 em of the sensor. Start the sensor and push the carit up the track. Stop...
Position vs Time Graphs A low friction cart traveling toward a motion detector device bumps into a barrier and subsequently travels away from the detector. Which one of the following graphs of position (x) versus time (t) could represent this motion? B А D С
please double check my answers
Prelab 3 Questions Motion Graphs 1 According to Appendix B, an independent variable in an experiment is one that is kept the same in every trial. a | True False 2 For reliable readings, the cart should never get closer than 15 cm to the motion sensor. a True b False 3. If you execute a best-fit line for data on a graph of position vs. time, what units does the line's (vertical) intercept have?...
For each of the velocity vs. time graphs below, sketch possible
corresponding position vs. time and acceleration vs. time graphs.
To the right of the graph, briefly describe the motion of the
object and why the graphs you drew are consistent with the velocity
graph. Where is the object at time t = 0 in each case?
Explain.
What is the total distance traveled by the particle?
What Velocity vs. Time Graphs Can Tell You Constants A common graphical representation of motion along a straight line is the v vs. t graph, that is, the graph of (instantaneous) velocity as a function of time. In this graph, time t is plotted on the horizontal axis and velocity v on the vertical axis. Note that by definition, velocity and acceleration are vector quantities. In straight-line motion, however, these vectors...
constant velocity and constant acceleration experiment pls
only correct answers and clear handwriting thanks
General Form of Linear equation Y=mx+b m is the slope b is the y-intercept General Form of Quadratic equation y=A+BX+C A is the quadratic coefficient B is the linear coefficient C is the Constant Constant Velocity (Motorized Cart) 10 Pistol 05 Times Y=mx+b X=Vt+Xo m is the slope: m is the Velocity = 0.210 m/s (21 cm/s) b is the y-intercept: b is the initial Position...
Please explain
For each of the velocity vs. time graphs below, sketch possible comesponding position vs. time and acceleration vs. time graphs. To the right of the graph, briefly describe the motion of the object and why the graphs you drew are consistent with the velocity graph. Where is the object at time t 0 in each case? Explain
3. The following graph is a velocity-position plot that shows the velocity v versus height y of a ball that is tossed directly upward in the vertical direction. (Note: this is a different type of graph compared to the position-time and velocity-time graphs that you have seen in class.) a. What part of the ball's motion does this graph describe? (In other words, does it describe the ball's total overall motion up and down? Only the upward motion? Only the...
Part 2: Velocity vs. Time 1. For each velocity vs. time graph (Graph 3 and 4), describe how you would walk in order to replicate the 1-D motion graph. Use words such as away, toward, at rest, speeding up, slowing down, constant speed. Be specific with your time periods. 2. For each velocity vs. time graph, create the corresponding position and acceleration versus time graphs. Construct your graph on a computer program such as Microsoft ExcelB. If you do not...
cally up from a moving cart. The position of the balls to raph below shows the position of the ball at equal time inter- A ball is fired vertically up from a mo the left of the graph below showst vals, as would be seen by the person on the cart. a. For this person the motion is sym- metric in time so positions on the way down are the same as on the way up, so only one ball...
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