At S = 6m, the particle's speed becomes a linear function with respect to time. V...

A particle's velocity along the x-axis is described by v(t)= At + Bt2, where t is...

A particle's velocity along the x-axis is described by v(t)= At + Bt2, where t is in seconds, v is in m/s, A= 0.85 m/s2, and B= -0.69 m/s3. Acceleration= -0.53 m/s2 @ t=0 and the Displacement= -2.58 m b/w t=1s to t=3s. What is the distance traveled in meters, by the particle b/w times t=1s and t=3s?

A particle travels along a straight line with a velocity v=(12−3t^2) m/s , where t is...

A particle travels along a straight line with a velocity v=(12−3t^2) m/s , where t is in seconds. When t = 1 s, the particle is located 10 m to the left of the origin. Determine the displacement from t = 0 to t = 7 s. Determine the distance the particle travels during the time period given in previous part.

computer model displays the motion of a particle on a coordinate system in real time. At...

computer model displays the motion of a particle on a coordinate system in real time. At time t = 0, the particle is at the origin of the coordinate system and has velocity components vx = 0 and vy = 5.2 m/s. The particle has acceleration components of ax = −4.4 m/s2 and ay = 0. (a) What are the x and y positions of the particle at t = 6.0 s? x = m y = m (b) What...

Practice Derivatives and integrals. A particle’s velocity is described by the function v = ( t^2...

Practice Derivatives and integrals. A particle’s velocity is described by the function v = ( t^2 – 7t + 10) m/s, where t is in s. a) Graph the velocity function for t in the interval 0s-6s. b) At what times does the particle reach its turning points? c) Find and graph the position function x (t). d) Find and graph the acceleration function a(t). e) What is the particle’s acceleration at each of the turning points?

Consider a spaceship with uniform acceleration g. If the ship starts from rest (with respect to...

Consider a spaceship with uniform acceleration g. If the ship starts from rest (with respect to an inertial system S imagined as the Earth) a) find its speed at time t and the distance x traveled. b) find the ship's own time in terms of t. c) with respect to an observer in S, how long does it take for the ship to reach the velocity of v = 0.999? And how long does it take the ship's passenger from...

A bullet travels down a rifle barrel with a velocity that depends on time: v =...

A bullet travels down a rifle barrel with a velocity that depends on time: v = 2*105 t - 6*107 t2 The acceleration is not constant. What is the acceleration as a function of time? What is the position as a fuction of time? How long does it take for the bullet to leave the barrel in seconds? Find the speed at which the bullet leaves the barrel in meters/second.

Suppose that the position vector for a particle is given as a function of time by...

Suppose that the position vector for a particle is given as a function of time by vector r (t) = x(t)î + y(t)ĵ, with x(t) = at + b and y(t) = ct2 + d, where a = 1.90 m/s, b = 1.10 m, c = 0.128 m/s2, and d = 1.12 m. (a) Calculate the average velocity during the time interval from t = 2.05 s to t = 3.75 s. vector v = m/s (b) Determine the velocity...

please do 1,2 and 3 thanks 1.The position of a particle moving along the x axis...

please do 1,2 and 3 thanks 1.The position of a particle moving along the x axis is given in centimeters by x = 9.12 + 1.75 t3, where t is in seconds. Calculate (a) the average velocity during the time interval t = 2.00 s to t = 3.00 s; (b) the instantaneous velocity at t = 2.00 s; (c) the instantaneous velocity at t = 3.00 s; (d) the instantaneous velocity at t = 2.50 s; and (e) the...

A 14.00 kg particle starts from the origin at time zero. Its velocity as a function...

A 14.00 kg particle starts from the origin at time zero. Its velocity as a function of time is given by v with arrow = 9t2î + 4tĵ where v with arrow is in meters per second and t is in seconds. (Use the following as necessary: t.) (a) Find its position as a function of time. r =________ (c) Find its acceleration as a function of time. a=_______m/s^2 ( (d) Find the net force exerted on the particle as...

A 3.00-kg particle starts from the origin at time zero. Its velocity as a function of...

A 3.00-kg particle starts from the origin at time zero. Its velocity as a function of time is given by v = (3t^2) i+ (2t) j where v is in meters per second and t is in seconds. (a) Find its position at t = 1s. (b) What is its acceleration at t = 1s ? (c) What is the net force exerted on the particle at t = 1s ?   (d) What is the net torque about the origin...