The coordinates of an object moving in the xy plane vary with time according to the...

The coordinates of a point moving in the plane are given as x = 4t- (5t.t),...

The coordinates of a point moving in the plane are given as x = 4t- (5t.t), y = (- 3t.t) (4t.t.t) in x, y meters and t seconds. a) t = 2 seconds, coordinates and location vector, b) average speed and acceleration during the first 2 seconds, c) Find the moment velocity and acceleration at t = 2 seconds.

A 2.80-kg object is moving in a plane, with its x and y coordinates given by...

A 2.80-kg object is moving in a plane, with its x and y coordinates given by x = 6t2 − 4 and y = 2t3 + 3, where x and y are in meters and t is in seconds. Find the magnitude of the net force acting on this object at t = 2.45 s.

A 3.25 kg object is moving in a plane, with its x and y coordinates given...

A 3.25 kg object is moving in a plane, with its x and y coordinates given by x = 4t2-1 and y = 4t3 + 2, where x and y are in meters and t is in seconds. Find the magnitude of the net force acting on this object at t = 2.00 seconds.

A particle moves in the xy plane. Its position vector function of time is ?⃑ =...

A particle moves in the xy plane. Its position vector function of time is ?⃑ = (2?3 − 5?)?̂ + (6 − 7?4)?̂ where r is in meters and t is in seconds. a) In unit vector notation calculate the position vector at t =2 s. b) Find the magnitude and direction of the position vector for part a. c) In unit vector notation calculate the velocity vector at t =2 s. d) Find the magnitude and direction of the...

The acceleration of a particle moving only on a horizontal xy plane is given by a→=3ti^+4tj^,...

The acceleration of a particle moving only on a horizontal xy plane is given by a→=3ti^+4tj^, where a→ is in meters per second-squared and t is in seconds. At t = 0, the position vector r→=(19.0m)i^+(44.0m)j^ locates the particle, which then has the velocity vector v→=(5.40m/s)i^+(1.70m/s)j^. At t = 4.10 s, what are (a) its position vector in unit-vector notation and (b) the angle between its direction of travel and the positive direction of the x axis?

A faulty model rocket moves in the xy-plane (the positive y-direction is vertically upward). The rocket's...

A faulty model rocket moves in the xy-plane (the positive y-direction is vertically upward). The rocket's acceleration has components ax(t)=αt2and ay(t)=β−γt, where α = 2.50 m/s4, β = 9.00 m/s2, and γ = 1.40 m/s3. At t=0 the rocket is at the origin and has velocity v⃗ 0=v0xi^+v0yj^with v0x = 1.00 m/s and v0y = 7.00 m/s. A. Calculate the velocity vector as a function of time. Express your answer in terms of v0x, v0y, β, γ, and α. Write...

The vector position of a 3.80 g particle moving in the xy plane varies in time...

The vector position of a 3.80 g particle moving in the xy plane varies in time according to r (with arrow)1 = (3i + 3j)t + 2jt2 where t is in seconds and r with arrow is in centimeters. At the same time, the vector position of a 5.45 g particle varies as r (with arrow)2 = 3i − 2it2 − 6jt. (a) Determine the vector position of the center of mass at t = 2.90. (b) Determine the linear...

at time t=0 s, an object is moving on a horizontal plane with a velocity v0x=1.5...

at time t=0 s, an object is moving on a horizontal plane with a velocity v0x=1.5 m/s , v0y=3.5 m/s. as the object slides, a constant acceleration acts on it that has the following components: ax=-2.3 m/s^2 and ay=4 m/s^2 . determine the magnitude of the displacement of the object after 2s

An object is moving in the X-Y plane. At time t1 the direction of its velocity,...

An object is moving in the X-Y plane. At time t1 the direction of its velocity, v and acceleration, a are: Direction of v is in the positive Y direction, Direction of a is in the negative Y direction. At time t1, the direction of the velocity of the object is _______. (changing or not changing) At time t1, the direction of the net force acting on the object is _______. Select the coordinate direction of the net force. (+X,...

A soccer ball is kicked in such a manner that the x and y components of...

A soccer ball is kicked in such a manner that the x and y components of its position at any time are given by x = (19.6 m/s)t and y = (14.5 m/s)t − (4.90 m/s2)t2, where x and y will be in meters when t is in seconds. (a) Determine expressions for the x and y components of its velocity at any time. (Use the following as necessary: t.) vx =   m/s vy =   m/s (b) Determine expressions for...