.The x and y components of the velocity of a particle are: vx = (2 t...

The x and y components of the velocity of a particle are Vx=(2t + 4)ft/s &...

The x and y components of the velocity of a particle are Vx=(2t + 4)ft/s & Vy=(8/y)ft/s. Initially, the particle if found at coordinates x=1 and y=0. Determine the position, magnitude of velocity, and magnitude of the acceleration of the particle when t = 2s

The components ? and ? of the velocity of a particle are: ?? = (2 ?...

The components ? and ? of the velocity of a particle are: ?? = (2 ? + 4) f / s ?? = (8 ⁄ ?) f / s (feet/sec) Initially the particle is in the coordinates ? = 1 and ? = 0. Determine the position, magnitude of velocity, and magnitude of acceleration of the particle when t = 2 s.

A particle travels along the path defined by the parabola y=0.2x^2. If the component of velocity...

A particle travels along the path defined by the parabola y=0.2x^2. If the component of velocity along t he x axis is Vx=(2.9t)ft/s, where t is in seconds. determine the magnitude of the particle's acceleration when t = 1s. when t = 0 , x =0 and y = 0.

computer model displays the motion of a particle on a coordinate system in real time. At...

computer model displays the motion of a particle on a coordinate system in real time. At time t = 0, the particle is at the origin of the coordinate system and has velocity components vx = 0 and vy = 5.2 m/s. The particle has acceleration components of ax = −4.4 m/s2 and ay = 0. (a) What are the x and y positions of the particle at t = 6.0 s? x = m y = m (b) What...

IP A particle passes through the origin with a velocity of (6.8m/s)y^. Part A If the...

IP A particle passes through the origin with a velocity of (6.8m/s)y^. Part A If the particle's acceleration is (−5.0m/s2)x^, what are its x and y positions after 5.0 s ? x, y =   m Part B If the particle's acceleration is (−5.0m/s2)x^, what are vx and vy after 5.0 s ? Express your answers using two significant figures separated by a comma. vx, vy =   m/s  

1-The velocity of a particle is v = { 6 i + ( 28 - 2...

1-The velocity of a particle is v = { 6 i + ( 28 - 2 t ) j } m/s, where t is in seconds. If r=0 when t=0, determine particle displacement during time interval t = 3 s to t = 8 s in the y direction. 2-A particle, originally at rest and located at point (1 ft, 4 ft, 5 ft), is subjected to an acceleration of a={ 3 t i + 17 t2k} ft/s. Determine magnitude...

) A particle is moving according to the velocity equation v(t) = 9t^2-8t-2 . The equation...

) A particle is moving according to the velocity equation v(t) = 9t^2-8t-2 . The equation uses units of meters and seconds appropriately. At t = 1 s the particle is located at x = 2 m. (a) What is the particle's position at t = 2 s? (b) What is the particle's acceleration at t = 1 s? (c) What is the particle's average velocity from t = 2 s to t = 3 s?

A 6.70 −μC particle moves through a region of space where an electric field of magnitude...

A 6.70 −μC particle moves through a region of space where an electric field of magnitude 1200 N/C points in the positive x direction, and a magnetic field of magnitude 1.25 T points in the positive z direction. If the net force acting on the particle is 6.21×10−3 N in the positive xx direction, find the components of the particle's velocity. Assume the particle's velocity is in the x-y plane. vx, vy, vz =   answer is 0,219,0 m/s why is...

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...

A 6.60 −μC particle moves through a region of space where an electric field of magnitude...

A 6.60 −μC particle moves through a region of space where an electric field of magnitude 1250 N/C points in the positive x direction, and a magnetic field of magnitude 1.01 T points in the positive z direction. 1. If the net force acting on the particle is 6.25×10^−3 N in the positive x direction, find the components of the particle's velocity. Assume the particle's velocity is in the x-y plane. vx, vy, vz =   m/s