The slope would be the distance travelled per time squared. Hence, the slope would give the acceleration of the motion.
2 What kincmatic concept of the moving object does the slope of the graph give?
What characterizes the velocity-vs-time graph of an object that is experiencing constant acceleration? A. The slope of the graph is constant and non-zero. B. The graph is flat, with zero slope. C. The slope of the graph is positive, and increasing. D. The slope of the graph is negative, and increasing. E. The slope of the graph is negative, and decreasing. F. The slope of the graph is positive, and decreasing.
Describe the concept of “Legal Object” in contract law, and give 2 examples that might give rise to an illegal object in insurance.
explain in words please Consider an object moving with a constant positive acceleration. What does a graph of its velocity as a function of time look like? What does a graph of its position as a function of time look like?
For the graph shown in the figure, what physical quantity does the slope of the graph represent for a de circuit? Current Power O resistance (voltage)2 1/(voltage) 1/(resistance) voltage
What does the graph of Range vs angle look like? Also what is the slope of that graph What does the graph of altitude vs angle look like? What is the slope of that graph?
9) A-Ch 2 (6 pts) The graph below is for an object moving for 8.0 seconds. Use the information in the graph, such as area under the curve and slope of each line segment. (a) Calculate the displacement for 8.0 seconds. (b) Calculate the acceleration for each time period (t = 0 to 2 s; t = 2 to 4s; t = 4 to 8 s) Show formula 1st and work for credit. Velocity (m/s) 20 10 / 0 2.0...
The figure shows a position versus time graph for a moving object. At which lettered point is the object moving the fastest?The figure shows a position versus time graph for a moving object. At which lettered point is the object moving the fastest?
The figure shows a position-versus-time graph for a moving object. At which lettered point or points a. Is the object moving the slowest without being at rest? b. Is the object moving the fastest? c. Is the object at rest? d. Does the object have a constant nonzero velocity? e. Is the object moving to the left?
The figure shows a position-versus-time graph for a moving object. At which lettered point or points a. Is the object moving the slowest without being at rest? b. Is the object moving the fastest? c. Is the object at rest? d. Does the object have a constant nonzero velocity? e. Is the object moving to the left?
What does the intersection moan? Which object is moving faster? Which object has a negative velocity according to the convention we have established? Which object is moving faster? Which starts ahead? Explain what you mean by "ahead."