The position of a car as a function of time is given by x = (50...

The position of a car as a function of time is given by x = (50...

The position of a car as a function of time is given by x = (50 m) + (-5.0 m/s) t + (-10 m/s2) t2. a. What are the initial position, initial velocity, and acceleration of car? Answer: initial position ______ m; initial velocity _____ m/s; acceleration ______ m/s2 b. What distance does the car travel during the first 1.0 s? Answer:_____ m c. What is the average velocity of the car between t = 1.0 s and t =...

The position of a car as a function of time is given by x=(60m)+(−4.5m/s)t+(−9m/s2)t2. B. What...

The position of a car as a function of time is given by x=(60m)+(−4.5m/s)t+(−9m/s2)t2. B. What is the initial velocity of the car? C.What is the acceleration of the car? D.What distance does the car travel during the first 1.0 s? E.What is the average velocity of the car between t=1.0s and t=2.0s?

1.At time t = 0, the initial position of an object is x1 = -9.00 m....

1.At time t = 0, the initial position of an object is x1 = -9.00 m. Two seconds later he is in position x2 = 5.00m and finally moves to position x3 = -12.0m for a total time of three seconds. Speed average (in m / s) of the object in this time interval is: 2.The position of a particle is described by the function x = 4.0 t2 - 2.0 t + 2.0 (m). Determine the average acceleration (in...

The position of a particle as a function of time is given by x(t) = (t...

The position of a particle as a function of time is given by x(t) = (t + 2t^2 + 3t^3) m. What is the average velocity between t = 2.0 s and 5.0 s? a. 123.0 m/s b. 132.0 m/s c. 213.0 m/s d. 321.0 m/s

The position of the front bumper of a test car under microprocessor control is given by...

The position of the front bumper of a test car under microprocessor control is given by x(t) = 2.21 m + (4.60 m/s2)t2 - (0.100 m/s6)t6. (a) Find its position at the instants when the car has zero velocity. first instant x = _______ m second instant x = _______ m Find its acceleration at the instants when the car has zero velocity. first instant _______ m/s2 second instant _______ m/s2 (b) Draw x - t, vx - t and...

Kinematics Examples: A) A cat has a time dependent position given by x(t) = 4.50 m...

Kinematics Examples: A) A cat has a time dependent position given by x(t) = 4.50 m + (3.20 m/s^2) t^2 - (1.75 m/s^3) t^3 Find Velocity as function of time? Find acceleration as a function of time? Find the position velocity, and acceleration of the cat at t = 3.00 s? Find average velocity and average acceleration for the 1st 3.00s? Find the position of the cat when it first changes direction? B) A robot starts at X0 = 4.00m...

A fragment moves in one dimension, and its position as a function of time is given...

A fragment moves in one dimension, and its position as a function of time is given by x = (1.8 m/s)t + (−3.0 m/s2)t2. (a) What is the fragments average velocity from t = 0.45 s to t = 0.55 s? (Indicate the direction with the sign of your answer.)__________ m/s (b) What is the fragments average velocity from t = 0.49 s to t = 0.51 s? (Indicate the direction with the sign of your answer.)___________ m/s (c) What...

The position of a particle for t > 0 is given by →r (t) = (3.0t...

The position of a particle for t > 0 is given by →r (t) = (3.0t 2 i ^ − 7.0t 3 j ^ − 5.0t −2 k ^ ) m. (a) What is the velocity as a function of time? (b) What is the acceleration as a function of time? (c) What is the particle’s velocity at t = 2.0 s? (d) What is its speed at t = 1.0 s and t = 3.0 s? (e) What is...

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

Suppose the position vector for a particle is given as a function of time by r (t) = x(t)î + y(t)ĵ, with x(t) = at + b and y(t) = ct2 + d, where a = 1.60 m/s, b = 1.05 m, c = 0.127 m/s2, and d = 1.20 m. (a) Calculate the average velocity during the time interval from t = 2.10 s to t = 4.25 s. (b) Determine the velocity at t = 2.10 s. dDetermine...

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

Suppose the position vector for a particle is given as a function of time by 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 = 1.50 m, c = 0.124 m/s2, and d = 1.08 m. (a) Calculate the average velocity during the time interval from t = 1.85 s to t = 4.05 s. (b) Determine the velocity at t = 1.85 s. Determine...