A particle traveling in a straight line has an acceleration of a = 0.75t2 ft/s2. If...

A particle is moving along a straight line and has acceleration given by a(t) = 20t^3+12t^2}....

A particle is moving along a straight line and has acceleration given by a(t) = 20t^3+12t^2}. Its initial velocity is v( 0 ) = 4 m / s and its initial displacement is s( 0 ) = 5 m. Find the position of the particle at t = 1 seconds.

A particle is moving along a straight line and has acceleration given by a(t) = 20t^3+12t^2}....

A particle is moving along a straight line and has acceleration given by a(t) = 20t^3+12t^2}. Its initial velocity is: v(0) = 4 m/ and its initial displacement is s(0) = 5 ms. Find the position of the particle at t = 1 seconds. 10  m 5  m 11  m 4  m 2m

An object starts moving from the origin with an initial velocity of 12j (ft/s) and with...

An object starts moving from the origin with an initial velocity of 12j (ft/s) and with a constant acceleration of 5i + 3j (ft/s2). When the object is at x= 50 ft determine its: a) y coordinate. b) Velocity c) Speed

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

In a 2 sec lab experiment a particle moves in a straight line while its acceleration...

In a 2 sec lab experiment a particle moves in a straight line while its acceleration is manipulated by a force field. The resulting acceleration function (in m/S^2<) is a multi part function whose expression and graph are shown below. A(t)={60(1-t) 0<(or equal to)t<1 {60(t-2) 1<(or equal to)t<2 Assume the particle begins at rest at t=0 seconds A) compute the expression in terms of t for the velocity of the particle from t=0 to t=1 seconds B) compute the expression...

A particle starts from the origin with velocity 5 ?̂m/s at t = 0 and moves...

A particle starts from the origin with velocity 5 ?̂m/s at t = 0 and moves in the xy plane with a varying acceleration given by ?⃗ = (2? ?̂+ 6√? ?̂), where ?⃗ is in meters per second squared and t is in seconds. i) Determine the VELOCITY and the POSITION of the particle as a function of time.

A) A particle starts from the origin with velocity 5 ?̂m/s at t = 0 and...

A) A particle starts from the origin with velocity 5 ?̂m/s at t = 0 and moves in the xy plane with a varying acceleration given by ?⃗ = (2? ?̂+ 6√? ?̂), where ?⃗ is in meters per second squared and t is in seconds. i) Determine the velocity of the particle as a function of time. ii) Determine the position of the particle as a function of time. (Explanation please )

An object with a mass of 4.15 kg undergoes an acceleration of -3.1 m/s2 for a...

An object with a mass of 4.15 kg undergoes an acceleration of -3.1 m/s2 for a period of 8.0 s. It then undergoes an acceleration of 5.2 m/s2 for a period of 11.0 s If the initial velocity of the object is 2.36 m/s and it first experiences the acceleration when it is at the origin, plot by hand on graph paper (to scale) the force, velocity, and position as functions of time. Explain why your graphs look the way...

The acceleration of a particle that moves linearly is given as ? = - (0.1 +...

The acceleration of a particle that moves linearly is given as ? = - (0.1 + sin⁡ (? / 0.75)). The unit of acceleration is m / s2 and the unit of s is m. In t seconds, when s = 0, b and v = 0.98 values ​​are as in the table. Calculate the velocity of the particle when (i) s = -1 m, (ii) the position of the particle when the velocity is maximum (iii) the maximum velocity...

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...