in terms of distance ans
velocity, describe how you must move in the begging and end to
produce each of the postition time graphs shown below
Alright Dude, If that worked for you... dont forget to give THUMBS UP.(that will work for me!)
If I missed something feel free to leave a comment.
atleast before giving downvote.
and, Thanks for using homeworklib- Smarter way to study.
in terms of distance ans velocity, describe how you must move in the begging and end...
Q2. In terms of distance and velocity, describe how you must move in the beginning and end to produce each of the position-time graphs shown below. (Include information about which direction you are walking in your description) Time Time Time al
Three objects move and their velocity vs time graphs are shown
below
The following questions refer to the velocity vs time graphs
above.
1.Are any of the graphs shown representing objects that are
slowing down?
2.Do any of the objects have a negative acceleration? How can
you tell?
3.Which object’s motion(s) most likely is/are experiencing air
resistance? Explain your reasoning.
4.Sketch what the acceleration vs time graphs would look like
for each of the velocity graphs.
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...
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...
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...
1) a) For the position vs. time graph shown below, sketch the velocity vs. time and acceleration vs. time graphs corresponding to the motion. (5 pts each) Beside the position and acceleration graphs, describe the motion of the object and explain why you drew the graph the way you did. (10 pts) 25 pts total
17. Shown are graphs of the position functions of two runners, A and B, who run a 100-meter race and finish in a s (meters) 80 40 tie. a) Describe and compare how the runners run the race. b) At what time is the distance between the runners the greatest? At what time do they have the same velocity? c) 0 4 8 12 (seconds)
17. Shown are graphs of the position functions of two runners, A and B, who...
In this lab you will investigate how to accurately interpret and draw position, velocity and acceleration graphs for common situations and explain their reasoning. Please go to the following website: http://phet.colorado.edu/en/simulation/moving-man. Click on the 4 button to start the simulation. You may need to install Java if your computer does not have it. 1. Go to the charts tab. Get yourself familiar with the simulation interface. Investigate Moving Man by having the man move using the sliders. Use the playback...
We investigated two different methods for measuring velocity: differentiated potentiometer, and differentiated encoder counting. Describe how each method compares in terms of resolution, implementation effort, and, noise in velocity estimate. What are the advantages of using a potentiometer for position and velocity estimation? When would you use a single rotation potentiometer for position or velocity estimation? Describe the advantages of using a dual channel encoder to measure velocity. When would you use an encoder for position and velocity estimation?
Please help me with these questions
represented by the following arrow What is the relationship between a one-dimensional vector and the sign of velocity? This depends on the wa choose to set the positive x axis. Diagram 1 Diagram 2 Positive velocity Negalive velocity 0 Negative velocity Positive velocity In both diagrams above, the top vectors represent velocity toward the right. In diagram 1, the x axis has been drawn so that the positive x direction is toward the right,...