The two lines on the position time graph describes the motion of two different objects. By what distance (in m) are the two objects separated at a time of 5.0 seconds? The image shows a graph with two lines representing motion over time. Here is a detailed explanation:### Graph Details- **Axes:** - The horizontal axis represents **Position (m)**, marked from 0 to 15 meters. - The vertical axis represents **Time (s)**, marked from 0 to 10 seconds.- **Lines:** - Two red lines are depicted. - The first line starts at the top left (15 meters at 0 seconds) and moves linearly down to the bottom right (0 meters at 5 seconds). - The second line starts at the top right (15 meters at 5 seconds) and moves linearly down to the bottom left (0 meters at 10 seconds).### Analysis- Each line demonstrates a constant speed, as indicated by the straight, diagonal paths.- The first line shows movement from 15 meters to 0 meters over 5 seconds.- The second line shows movement back from 15 meters to 0 meters, again over 5 seconds.### Additional Features:- There's a “Check Answer” button located on the right side of the graph.### Overall Concept:This graph appears to illustrate the concept of uniform motion, demonstrating two phases of movement with constant speed in the opposite direction.

Answered: The two lines on the position time…

The two lines on the position time graph describes the motion of two different objects. By what distance (in m) are the two objects separated at a time of 5.0 seconds?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

A canon is fired upwards from ground level and has a total time of flight of 3.47 seconds. What was the initial speed of the canon?
Can you please answer this question and show all of the steps
A lion is napping in the shade as a zebra saunters by at steady 48.2 km/h. Feeling the desire for dinner the lion accelerates at 4.44m/s2 for 5.00 seconds. What velocity will the lion attain after 5.00 seconds? Graph the motion (velocity vs. time) of the lion and the deer for the entire scenario. Label the axis and any major points.
Two kids are racing towards a toy somewhere between them. Albert has 3.90 times further to run than Betty. Albert is to the West of the toy and Betty is to the East of the toy. Albert runs at a constant speed of 1.60 m/s. It takes him 2.90 s to reach the toy.How far did Albert run to reach the toy?
The two lines on the position time graph describes the motion of two different objects. How much faster (in m) is the object moving compared to the slower object?
An object travels 146 m due east when it turns around and returns to its starting position. The entire trip takes 69.0 seconds. a) What is the magnitude of the displacement of the object? 73.0 m 146 m 292 m 0 m b) What is the magnitude of the average velocity of the object? 2.12 m/s 0 m/s 1.06 m/s 4.23 m/s
Please answer correctly. Thank you!!
Problem 3: You throw an object up with a speed of voy = 7 m/s from a height of y = 25 m. %3D Part (a) How long, in seconds, does it take for the object to reach the ground? Numeric : A numeric value is expected and not an expression. %3D
PLEASE ANSWER LETTERS B TO DThe position of a particle is given by the equation s(t) = t3 − 6t2 + 9t, where t is in seconds and s in meters.a) What is the velocity after 2 s? After 4 s?b) Find the instant when the particle reverses directionc) Determine the time intervals when it is moving to the LEFT? RIGHT?d) Find the initial position and the positions when it changes direction
A juggler throws a bowling pin straight up with an initial speed of 8.2 m/s. How much time elapses until the bowling pin returns to the juggler's hand? 0.84 s 1.68 s O 1.2 s O 2.4 s
On the x-axis, a particle is accelerated from 6m and from 4m/s to 8m/s for a total time of 3 seconds, t = 3 seconds a. Find its final position, its displacement at t= 3 seconds b. Determine its final velocity and the distance traveled at t = 8 seconds.
Could you please help me answer this question.