The position function of an object moving horizontally along a straight line as a function of...

The position function of an object moving along a straight line is given by s =...

The position function of an object moving along a straight line is given by s = f(t). The average velocity of the object over the time interval [a, b] is the average rate of change of f over [a, b]; its (instantaneous) velocity at t = a is the rate of change of f at a. A ball is thrown straight up with an initial velocity of 144 ft/sec, so that its height (in feet) after t sec is given...

The position of an object moving horizontally after t seconds is given by the function s...

The position of an object moving horizontally after t seconds is given by the function s =12t-t^3 ​, for t > 0​, where s is measured in​ feet, with s g> 0 corresponding to positions right of the origin. a. When is the object​ stationary, moving to the​ right, and moving to the​ left? b. Determine the velocity and acceleration of the object at t=4. c. Determine the acceleration of the object when its velocity is zero. d. On what...

Given the following acceleration functions of an object moving along a line, find the position function...

Given the following acceleration functions of an object moving along a line, find the position function with the given initial velocity and position. a(t)=-32; v(0)=24, s(0)=0

The function s(t) describes the position of a particle moving along a coordinate line, where s...

The function s(t) describes the position of a particle moving along a coordinate line, where s is in feet and t is in seconds. s(t) = 3t2 - 6t +3 A) Find the anti-derivative of the velocity function and acceleration function in order to determine the position function. To find the constant after integration use the fact that s(0)=1. B) Find when the particle is speeding up and slowing down. C) Find the total distance from time 0 to time...

An object is moving along a straight line, and the uncertainty in its position is 3.00m....

An object is moving along a straight line, and the uncertainty in its position is 3.00m. (a) find the minimum uncertainty in the momentum of the object. find the minimum uncertainty in the object's velocity, assuming that the object is (b) a golf ball (mass =0.0450 kg) and (c) an electron.

An object is moving along a straight line, and the uncertainty in its position is 2.80...

An object is moving along a straight line, and the uncertainty in its position is 2.80 m. (a) Find the minimum uncertainty in the momentum of the object. Find the minimum uncertainty in the object's velocity, assuming that the object is (b) a golf ball (mass = 0.0450 kg) and (c) an electron.

An object is moving along a straight line, and the uncertainty in its position is 3.50...

An object is moving along a straight line, and the uncertainty in its position is 3.50 m. (a) Find the minimum uncertainty in the momentum of the object. Find the minimum uncertainty in the object's velocity, assuming that the object is (b) a golf ball (mass = 0.0450 kg) and (c) an electron.

An object is moving along a straight line, and the uncertainty in its position is 2.70...

An object is moving along a straight line, and the uncertainty in its position is 2.70 m. (a) Find the minimum uncertainty in the momentum of the object. Find the minimum uncertainty in the object's velocity, assuming that the object is (b) a golf ball (mass = 0.0450 kg) and (c) an electron.

A particle is moving along a straight line, and its position is defined by s =...

A particle is moving along a straight line, and its position is defined by s = (t2 - 6t +6) m. At t=6 seconds, find the following : a. the acceleration of the particle b. The average speed c. the average velocity

At the fifth second, the velocity of an object moving along a horizontal line is -3m/s...

At the fifth second, the velocity of an object moving along a horizontal line is -3m/s . The object’s acceleration function is given by at=-t2+4. Find the velocity of the object at the 10th second of motion. Find the time when the acceleration is zero. Starting from 3m, W an object moved according to vt=2t-3 .                Find the position of the object at the 20th second of motion.