physics please explain as much as possible! Object moves following the path x=At^3-Bt^2x=At3−Bt2 , where A=1...

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?

An object of mass m moves along a guided horizontal path with a speed given by...

An object of mass m moves along a guided horizontal path with a speed given by v = vo + vasin(ωt) where t = time in seconds. The constants are … vo = 5 m/sec va = 3 m/sec ω = π/4 rad/sec (Recall rad/sec = 1/sec) m = 5 kg Find functions for the position, acceleration, and force required to cause this acceleration as functions of time. At time t = 0 … position xo = 0 Does someone...

1. An object of mass M is moves in an x,y plane according the equations below....

1. An object of mass M is moves in an x,y plane according the equations below. The parameters A, B, and C are positive constants. We are considering its motion for negative and positive values of t. x equals A t y equals B t minus C t squared Which of the following are true? The speed of the object at t=0 is zero. The acceleration of the object is negative C. The speed of the object at t=0 is...

An object moves in a coordinate system with velocity vector v(t) = < sqrt(1+2t), tcos(?t), tsin(?t)...

An object moves in a coordinate system with velocity vector v(t) = < sqrt(1+2t), tcos(?t), tsin(?t) > for t >= 0. ?=pi a. Find the equation of the tangent line to the objects path when it reached the origin. b. When the object reached the origin, with what angle did it strike the xy-plane? c. Give the (unit) tangent, (unit) normal, and binormal directions for the object when it hits the xy-plane. d. Give a vector-valued function describing the objects...

A ball moves along a 1D coordinate system with the following motion parameters at time t...

A ball moves along a 1D coordinate system with the following motion parameters at time t = 0 s: x0 = 7.7 m and v0 = 0 m/s. The ball has a constant acceleration of 1.2 m/s2 during the entire motion which occurs over a time of 3 s. Assume that an error in position of 9 % is acceptable in this application over the entire motion. How many rows N will be needed in the table to model the...

One dimensional motion describes the changes in the position of an object over time in terms...

One dimensional motion describes the changes in the position of an object over time in terms of its displacement, velocity, and acceleration in one direction. The motion in that direction is independent of the displacement, velocity, and acceleration associated with any of the perpendicular directions. For example, the acceleration due to gravity near the surface of the earth has a value of 9.8 m/s2, downward. This affects the vertical motion of an object but has no effect on the motion...

1)A object is released from rest from a height of 1.8 m and moves down the...

1)A object is released from rest from a height of 1.8 m and moves down the incline as shown. What is the angular speed of the object when it reaches the horizontal surface? (ignore the rotational kinetic energy, friction force, drag force).The mass of the object is 50.0 kg. a)5.9 m/s b)3.3 m/s c) 2.5 m/s d)1.8 m/s 2) a 5.0 kg bird, accelerating from rest at a constant rate, experiences a displacement of 28 m in 11 seconds. What...

When a derivative is taken of a VECTOR quantity, then the derivative of each COMPONENT is...

When a derivative is taken of a VECTOR quantity, then the derivative of each COMPONENT is taken with respect to the same PARAMETER, i.e, d(x,y)/dt = (dx/dt,dy/dt). When objects travel on CURVED PATHS, and alternate RECTANGULAR description of the motion is the coordinates RELATIVE to the path. This has the advantage of immediately answering questions that are important to us: the TANGENTIAL component speeds up and slows down the object and the NORMAL component turns it. 1. A child rides...

Please explain how so that I can get it Both problems please and problem 1 only...

Please explain how so that I can get it Both problems please and problem 1 only for part (e). Problem2 only part(c). P1)The expression x = 7.70 cos(2.50πt + π/2) describes the position of an object as a function of time, with x in centimeters and t in seconds. What are the following? (a) frequency 1.25Hz (b) period 0.8 s (c) amplitude 7.70 cm (d) initial phase of the object's motion 1.57 rad (e) position of the particle at t...

VPython Physics 1211k 1. Here is a somewhat more sophisticated program that recreates one of your...

VPython Physics 1211k 1. Here is a somewhat more sophisticated program that recreates one of your experiments – a cart rolling up a ramp and back down. Particularly pay attention to the components of the acceleration. from visual import * #control the dimensions of the animation window. Turn off autoscaling. Then set the window to show 20 meters #in each direction. Then set the actual physical size of the animation window on the screen scene.autoscale = False scene.range = 20...