A 3.0 kg particle moves in response to a single, varying force such that its position...

A 3.60-kg particle moves along the x axis. Its position varies with time according to x...

A 3.60-kg particle moves along the x axis. Its position varies with time according to x = t + 3.0t^3, where x is in meters and t is in seconds. (a) Find the kinetic energy of the particle at any time t. (Use the following as necessary: t.) K = (b) Find the magnitude of the acceleration of the particle and the force acting on it at time t. (Use the following as necessary: t.) a = F = (c)...

A 4.60 kg particle moves along the x axis. Its position varies with time according to...

A 4.60 kg particle moves along the x axis. Its position varies with time according to x = t + 1.8t3, where x is in meters and t is in seconds. (a) Find the kinetic energy at any time t. (Accurately round any coefficient to exactly two decimal places. Use t as necessary _______J (b) Find the acceleration of the particle and the force acting on it at time t. (Accurately round any coefficient to exactly two decimal places. Use...

A single force acts on a 3.7 kg particle-like object in such a way that the...

A single force acts on a 3.7 kg particle-like object in such a way that the position of the object as a function of time is given by x = 2.1t - 1.5t2 + 4.2t3, with x in meters and t in seconds. Find the work done on the object by the force from t = 0 to t = 7.2 s.

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 particle of mass 2.00 kg moves with position r(t) = x(t) i + y(t) j...

A particle of mass 2.00 kg moves with position r(t) = x(t) i + y(t) j where x(t) = 10t2 and y(t) = -3t + 2, with x and y in meters and t in seconds. (a) Find the momentum of the particle at time t = 1.00 s. (b) Find the angular momentum about the origin at time t = 3.00 s.

A particle of mass 10kg moves in a straight line such that the force (in Newtons)...

A particle of mass 10kg moves in a straight line such that the force (in Newtons) acting on it at time (in seconds) is given by 90t4+70t3+30, If at time t=0 its velocity,v (in ms-1), is given by v(0)=9 , and its position x (in m) is given by x(0)=6 , what is the position of the particle at time ?

PLEASE ANSWER BOTH QUESTIONS! (1) A 2.4 kg particle moves along an x axis, being propelled...

PLEASE ANSWER BOTH QUESTIONS! (1) A 2.4 kg particle moves along an x axis, being propelled by a variable force directed along that axis. Its position is given by x = 3.0 m + (4.0 m/s)t + ct2 - (1.8 m/s3)t3, with x in meters and t in seconds. The factor c is a constant. At t = 3.0 s, the force on the particle has a magnitude of 36 N and is in the negative direction of the axis....

A particle moves in a straight line and its position is given by s(t)=t^3 - 6t^2-36t...

A particle moves in a straight line and its position is given by s(t)=t^3 - 6t^2-36t +66, where s is measured in feet and t in seconds. Find the intervals when the particle increases its speed.

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 )

A particle moves along a circular path having a radius of 6 in. such that its...

A particle moves along a circular path having a radius of 6 in. such that its position as a function of time is given by theta=(cos4t)rad where t is in seconds. Determine the magnitude of the acceleration of the particle when theta = 30.