where the position vs. time graph is not linear, describe how the velocity and acceleration looked over the same time period.
where the position vs. time graph is not linear, describe how the velocity and acceleration looked...
A) Describe the motion depicted by the following velocity vs. time graph. B) Draw the acceleration vs. time graph associated with the velocity vs time graph above. C) Draw the position vs. time graph associated with the previous velocity and acceleration vs. time graphs. 0 time (s)
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
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...
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.
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
PHY 1100- Exercise 2- Report Name: Part 1 -Velocity Position versus Time (x vs t0 graph for Object 1 x versus t- Object 1 y 1.2754x+0.0187 Linear (x) t(s) Position versus Time (x vs t) graph for Object 2 x versus t- Object 2 4.5 3.5 -0.7249x+0.0513 2.5 Linear () 1.5 0.5 t (s) Position versus Time (x vs t) graph for Both Objects x versus t for Both Objects y 0.7652x+0.0187 Linear (x) -0.4349x+0.0513 0.6 12 1.8 2.4 3...
Please answer physics lab questions SECTION: DATE: ANALYSIS PARTI: POSITION VS. TIME GRAPH MATCHING I. Describe how you walked for each of the graphs that you matched. When the aph hada honit. period wedid net mare wiun the crapă‚“1ad a linlan perod we moved but at o constan sperd Explain the significance of the slope of a position vs. time graph. Include a discussion of positive 2. and negative slope. 3. What type of motion is occurring when the slope...
Choose a function to represent the acceleration vs. time graph. How can you calculate the values of the constants of this function from the function representing the position versus time graph? Check how well this works. You can also estimate the values of the constants from the graph. What kinematics quantities do these constants represent? Record the corresponding kinematic quantities and the values of the corresponding errors. From either the position vs. time, velocity vs. time, or acceleration vs. time...
Constant Positive Accederation Recall that acceleration is the slope of the v-t graph Position vs. Time Time (s1 Position ml Velocity bos) 0 0.2 2.5 0.4 1.5 0.5 0.6 Velocity vs. Time 0.8 1.2 2.5 1.4 0.5 Timet s 1 1.6 Acceleration vs. Time 1.8 0.5 1.5 s utat V ut at Timet S i 5 15
a) How is the sign of ACCELERATION represented on a velocity vs time graph. b) Why is acceleration positive even though a cart is slowing down on a track. Explain in term of a) a mathematician would find acceptable b) a younger sibling would understand