HORIZONTAL MOTION1. The motion of a particle along the x -axis is described by the equation x = |= (6) t-(0.5) t³ where x is in meters, and t is in seconds. Determine the following:a. Position of the particle 3 seconds after e. Average acceleration during thestartingsecond 3 seconds.Acceleration at t = 5 secsTime the particle moves at 20m/sThe acceleration and velocity at startof motionb. Displacement from 2 sec to 5 secf.c. Average velocity during first 5 seconds g.d. Velocity at t= 4secsh.

Name: HORIZONTAL MOTION1. The motion of a particle along the x -axis is des
Uploaded: 2024-03-05T11:56:34.000Z
Channel: Bartleby
Description: HORIZONTAL MOTION1. The motion of a particle along the x -axis is described by the equation x = |= (6) t-(0.5) t³ where x is in meters, and t is in seconds. Determine the following:a. Position of the particle 3 seconds after e. Average acceleration

As per our company guidelines we are supposed to answer only first 3-sub part. Kindly repost other…

Science

Physics

HORIZONTAL MOTION 1. The motion of a particle along the x -axis is described by the equation x = (0.5) t³ where x is in meters, and t is in seconds. Determine the following: a. Position of the particle 3 seconds after e. Average starting b. Displacement from 2 sec to 5 sec f. c. Average velocity during first 5 seconds g. d. Velocity at t= 4secs h. (6) t+ acceleration acceleration during the second 3 seconds Acceleration at t = 5 secs Time the particle moves at 20m/s The acceleration and velocity at start of motion

HORIZONTAL MOTION 1. The motion of a particle along the x -axis is described by the equation x = (0.5) t³ where x is in meters, and t is in seconds. Determine the following: a. Position of the particle 3 seconds after e. Average starting b. Displacement from 2 sec to 5 sec f. c. Average velocity during first 5 seconds g. d. Velocity at t= 4secs h. (6) t+ acceleration acceleration during the second 3 seconds Acceleration at t = 5 secs Time the particle moves at 20m/s The acceleration and velocity at start of motion

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter2: Kinematics

Section: Chapter Questions

Problem 21CQ: An object that is thrown straight up falls back to Earth. This is one-dimensional motion. (a) When...

See similar textbooks

Similar questions

A student writes, "A bird that is diving for prey has a speed of -10 m / s." What is wrong with the student's statement? What has the student actually described? Explain.
My question isn't how to solve the problem exactly. In fact, it's already been solved on this website. My question is about the acceleration. When I solve this problem myself, first I calculate the velocity by dividing 100m by 53s. I get 1.89m/s. Then I use that to find the acceleration using the equation vf = vi + at. That's 1.89/53 = 0.036m/s^2. That's not correct. The correct way to find the acceleration is to us the equation d = 1/2 at^2 and solve that way without taking the intermediate step of finding the velocity. Doing it that way, the acceleration is 0.0712m/s^2. My question is why you get a different result doing it the first way than you get doing it the second way.
10: A bullet is shot straight up into the air from ground level. It reaches a maximum height at h = 366 m. (a) Calculate the initial speed of the bullet, in m/s. (b) Using your previous results, calculate the total flight time, tt in seconds, until the bullet reaches the ground.
1. If an object is moving with constant acceleration, what is the shape of its velocity vs. time graph? What is the significance of the slope? What is the significance of the y-intercept? 2. If an object is moving with constant acceleration, what is the shape of its distance vs. time graph? What is the significance of the slope of a distance vs. time curve? What is the significance of the y-intercept?
A body is thrown vertically upwards with an initial velocity of 100m / s, after 4s of the launch its velocity is 60 m / s. 1. What is the maximum height reached? 2. At what time does the mobile travel that distance? 3. How long does it take to return to the starting point since it was launched? 4. How long does it take to reach heights of 300m and 600m? Use g = 10m / s² i do have 1, 2, and 3 as another person answered. but i only need 4 --
1) What is the displacement of an object dropped from a height after 1.50 seconds? 2) How long will it take a dropped object to reach the ground if dropped from a height of 1.75 meters? 3) An object is flipped upward at a velocity of 30.0 m/s. At what point in its ascent will its velocity be 2.0 m/s? 4) How long will a coin launched upward at a velocity of 25.0 m/s attain a velocity of 15.0 m/s? 5) A 5-kg rock is dropped from a height of 15.0 m. a) What will be its velocity 0.75 seconds after its drop? b) What will be its velocity at a point 8.0 m from the ground? 6) How high will an object launched upward travel if its initial velocity was 15.0 m/s?
1. The area under a velocity-time graph representsa. displacementb. accelerationc. average velocityd. distancee. instantaneous velocity
1. A marathon runner runs with an average velocity of 2.4m/s. How long (in seconds) does it take for the runner to travel 74.7m? 2. An object that has been moving with a speed of 5m/s for 10s can have a zero displacement. YES OR NO?
You are talking with a cell phone while trailing a police car by 20m; both ypur car andthe police car traveling at 100km/h. Your conversation diverts your attention fromthe police car for 2,0 s. At the beginning g of that 2,0s the police officer beginsbraking suddenly at 6m/s2. A- What is the separation between the two cars whenyour attention finally returns? Suppose that you take another 0,3 s to realize yourdanger and begin braking. B- If you too brake at 6m/s2, what is your speed when youhit the police car.
1. A vehicle in linear motion, when stationary, within 14 sIt starts moving with an acceleration of 8 m/s² that smoothly goes down to zero andAt the end of 14 seconds, it continues to move at a constant speed. from the beginningHow long does it take to reach 850 m?.
You are arguing over a cell phone while trailing an unmarked police car by 25m; both your car and the police car are travelling at 120km/h. Your argument diverts your attention from the police car for 2.0s (long enough for you to look at the phone and yell, “I won’t do that!”). At the beginning of that 2.0s, the police officer begins braking suddenly at 5.05m/s^2. What is the separation between the two cars when your attention finally returns? Suppose that you take another 0.500s to realize your danger and begin braking. If you too brake at 5.05 m/s^2, what is your speed when you hit the police car?
A dolphin in an aquatic show jumps straight up out of the water at a velocity of 15 m/s. A: How long is the dolphin in the air in seconds? Neglect any effects due to his size or orientation.