Consider an object with initial position r0 = (-4, 5) meters (also written as -4î +...

An object starts with an initial velocity of -2.00i m/s. The initial position is the origin....

An object starts with an initial velocity of -2.00i m/s. The initial position is the origin. The constant acceleration = 4.10i + 3.20j m/s^2. a.) What is the initial velocity? b.) What is the vector position at t=2.00 seconds? c.) What is the velocity of the object at t=2.00 seconds? d.) What is the speed of the at t=2.00 seconds?

The acceleration of an object (in m/s2) is given by the function a(t)=6sin(t). The initial velocity...

The acceleration of an object (in m/s2) is given by the function a(t)=6sin(t). The initial velocity of the object is v(0)= −1 m/s. Round your answers to four decimal places. a) Find an equation v(t) for the object velocity. v(t)= -6cos(t)+5 b) Find the object's displacement (in meters) from time 0 to time 3. 15-6sin(3) Meters c) Find the total distance traveled by the object from time 0 to time 3. ? Meters Need Help fast, please

There are 2 objects, object A has acceleration a= -2 m/s, initial position Xo = 0,...

There are 2 objects, object A has acceleration a= -2 m/s, initial position Xo = 0, and initial velocity Vo = 20. Object B has velocity V = 10 m/s, and after 10 seconds, its position is X(10s) = -1365 Calculate: A) Velocity when they encounter (when they meet) B) Position of encouter C) Time of encounter

a(t) = 2e^ −t + 4 cos(2t) − sin(2t). Find the initial acceleration at t =...

a(t) = 2e^ −t + 4 cos(2t) − sin(2t). Find the initial acceleration at t = 0. If time is measured in seconds and distance is measured in meters, what units is your answer in? Find the velocity v(t) of the object given an initial velocity of 2 meters per second. Find the position s(t) of the object given an initial position of 0 meters.

Position and Time The position of an object moving in a straight line is given by...

Position and Time The position of an object moving in a straight line is given by x = 5t - 8 t 2 + 6t 3, where x is in meters and t in seconds. (a) What is the position of the object at t = 1s? m What is the position of the object at t = 2?   m What is the position of the object at t = 3? m What is the position of the object at...

The initial position of an object is x=95 m. The initial velocity is v=24 m/s. Given...

The initial position of an object is x=95 m. The initial velocity is v=24 m/s. Given that acceleration is given by a(t) = -4t +1. What is the maximum value of x and v? At what times do they occur?

A thrown object follows a path where at time t the position of the object is...

A thrown object follows a path where at time t the position of the object is given by r(t) = (3 + 90.63t)i + (−4.9t^2 + 42.26t + 5)j (a) What (x, y) point best descries the objects initial position? (b) If the initial velocity of the object was 100 m/s then what was the initial angle with respect to the positive horizontal axis? (c) What was the maximum height of the object?

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...

1. The position of an object along the x-axis in meters is given by: x(t) =...

1. The position of an object along the x-axis in meters is given by: x(t) = 1 + 2t + 3t 2 ( a) Plot x(t) as a function of t from t = 0 s to 10 s, (b) At 2 s, what is position, speed, and acceleration of the object?

An object of mass 2kg is free falling being given an initial velocity of -10 m/s....

An object of mass 2kg is free falling being given an initial velocity of -10 m/s. its initial vertical position is 20 m. a.) sketch v(t), y(t), and a(t) graphs for the motion. b.) Find the time when the object reaches the ground. c.) Find the velocity of the object at the impact d.) Suppose that simultaneously another object is projected straight up with an initial velocity of 10 m/s. prove if the other project will pass the first.