velocity (v) of an object is defines as the rate of change in position vector (s)....

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 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?

An object is thrown vertically upward with initial velocity v(0)=20ft/s. Assume that gravitation is the only...

An object is thrown vertically upward with initial velocity v(0)=20ft/s. Assume that gravitation is the only force acting on the object (gravitational acceleration g=32ft/s). (a) Find the velocity function v(t) (b) If the initial position of the object is s(0)= 50ft, find the position of the function s(t).

Hello, I am trying to use python to calculate the terminal velocity of an object falling...

Hello, I am trying to use python to calculate the terminal velocity of an object falling from a height of 3 meters. I have gotten stuck trying to actually calculate the terminal velocity. thanks for the help! Here I have posted the code I have so far. from visual import* myscene = display(range = 10, width = 600, heigth = 600, background = color.blue, title = 'lab 5' ) #display window s = vector(0,3,0) #vector for starting position m =...

Given that the acceleration vector is a(t)=〈−1cos(t),−1sin(t),−2t〉 the initial velocity is v(0)=<1,0,1> and the initial position...

Given that the acceleration vector is a(t)=〈−1cos(t),−1sin(t),−2t〉 the initial velocity is v(0)=<1,0,1> and the initial position vector is r(0)=<1,1,1> compute: a. The velocity vector b. The position vector

) Will the position, velocity, and/or the acceleration vector(s) always be in the direction of the...

) Will the position, velocity, and/or the acceleration vector(s) always be in the direction of the E field at each point for a moving positively charged particle? Explain. f) How is the answer to e) different (if at all) for a moving negative charge?

1.The acceleration of an object is equal to the rate of change of its position the...

1.The acceleration of an object is equal to the rate of change of its position the rate of change of its velocity the rate of change of its speed only the time an object has been in motion 2. What two forms of energy does a rollercoaster transfer between? Applied force to gravitational force Normal force to friction force Air resistance force to tension force Potential energy to kinetic energy 3. What is the amount of matter an object contains?...

A 100 g object with velocity vector [1, 3] m/s collides with a 120 g object...

A 100 g object with velocity vector [1, 3] m/s collides with a 120 g object having velocity vector [-3, 2] m/s. After the collision the 100 g object is observed to have velocity vector [2,-1] m/s. What is the velocity vector of the 120 g object after the impact?

Find the position vector of a particle that has acceleration 2i+4tj+3t^2k, initial velocity v(0)=j+k and initial...

Find the position vector of a particle that has acceleration 2i+4tj+3t^2k, initial velocity v(0)=j+k and initial position r(0)=j+k

Answer two parts a)If r(t) is the position of an object, then unit tangent vector T(t)...

Answer two parts a)If r(t) is the position of an object, then unit tangent vector T(t) is the velocity (the derivative of position). True or False b)You start from rest (no motion) and your acceleration is the constant vector 1i-2j+3k meters/second2. Find your velocity vector after 2 seconds.