1) For each of the net force versus time graphs in Parts A, B, and C, construct a possible corresponding graph of velocity v(t), or position x(t), versus time. Assume one-dimensional motion.
Plot velocity versus time. (Figure 1)
Part B
Plot velocity versus time. (Figure 2)
Part C
Plot position versus time. (Figure 3)
I have assumed 2 cases, first with some initial velocity V0 and second is if body and rest and hence drawn 2 graphs for each part as follows
1) For each of the net force versus time graphs in Parts A, B, and C,...
Constants 1 Periodic Table For each of the net force versus time graphs in Parts A, B, and C, construct a possible corresponding graph of velocity v(t), or position z(t), versus time. Assume one-dimensional motion Figure 3 of 3> Plot position versus time. (Figure 3) View Available Hint(s) No elements selected
For the motion diagram given(Figure 1), sketch the shape of the corresponding motion graphs in Parts A to D. Use the indicated coordinate system. One unit of time elapses between consecutive dots in the motion diagram. A)Construct a possible graph forxposition versus time,. B) Construct a possible graph for theyposition versus time,. C)Construct a possible graph for thexvelocity versus time,. D) Construct a possible graph for theyvelocity versus time,. I know A. need help with B.C and D, on following...
12. Below are shown four velocity-versus-time graphs. For each: Draw the corresponding position-versus-time graph Give a written description of the motion. Assume that the motion takes place along a horizontal line and that x00 b. a. C.
Problem 7. Below you are supplied a position versus time graph. Draw velocity versus time and acceleration versus time graphs consistent with this position versus time graph. Assume that this is one dimensional motion along the x axis, that you are standing on the origin (x = 0) with positive x off to your right and negative x off to your left. Describe the motion of the object in everyday terms without using the words velocity, acceleration, slope, positive or...
4. Draw both a position-versus-time graph and a velocity-versus-time graph for an object at rest at x=1m. 5. The figure shows the position-versus-time graphs for two objects, A and B, that are moving along the same axis. At the instant t1 s, is the speed of A greater than, less than, or equa to the speed of B? Explain. b. Do objects A and B ever have the same speed? If so, at what time or times? Explain. 6. Below...
PART A: WARM-UP QUESTIONS T. The graphs below show the magnitude, F, of the force exerted by a spring as a function of the distance, x, the spring has been stretched. For which one of the graphs does the spring obey Hooke's law? b) c) (P 2. The figure shows a graph of the position x as a function of time t for a system undergoing simple harmonic motion. Which one of the following graphs represents the velocity of this...
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.
Velocity from Graphs of Position versus Time An object moves along the x axis during four separate trials. Graphs of position versus time for each trial (with the same scales on each axis) are shown in the figure. (Figure 1) Part ADuring which trial or trials is the object's velocity not constant? Part B During which trial or trials is the magnitude of the average velocity the largest?
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...
The figure below is the velocity-versus-time (not position-versus-time!) graph of a particle in simple harmonic motion. (a) What is the amplitude of the oscillation? (b) What is the phase constant? (c) What is the position at t=0s?