Ammar flies a drone starting from time = 0 second and position (0, 4m) with an acceleration of å = 21 - 4ĵ and an initial velocity of v; = 6.00 î – . Find (a) the vector position of the particle at any time t, (b) the velocity of the particle at any time t, (c) the coordinates of the particle at t = 3.00 s m
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- At t = 0, a particle moving in the xy plane with constant acceleration has a velocity of vi=(3.00i2.00j)m/s and is at the origin. At t = 3.00 s, the particles velocity is vf=(9.00i+7.00j)m/s. Find (a) the acceleration of the particle and (b) its coordinates at any time t.Suppose that a particle begins its motion from the origin and meets the velocity (in m / s) given by: vx (t) = 2.50t vy (t) = 3.50√t. for t> 0 in seconds. Find the speed of the particle at t = 5.00 s What is the acceleration vector (in rectangular components) at t = 2.00 s ? Find the magnitude of the displacement between t = 0.00 s and t = 6.00 sAmmar flies a drone starting from time = 0 second and position (0, 4m) with an acceleration of ?⃑ = 2?̂??2 −4?̂??2and an initial velocity of ?⃑? = 6.00 ?̂??. Find(a) the vector position of the particle at any time t,(b) the velocity of the particle at any time t,(c) the coordinates of the particle at t = 3.00 s
- A particle initially located at the origin has an acceleration of 3.00j m/s² and an initial velocity of 5.00i m/s. Find: a) the vector position of the particle at any time b) the velocity of the particle at any time c) the coordinates of the particle at f= 2.00 s d) the speed of the particle at t = 2.00 sA particle initially located at the origin has an acceleration of a = 4.00j m/s? and an initial velocity of v = 9.00î m/s. (a) Find the vector position of the particle at any time t (where t is measured in seconds). tî + 2 j) m (b) Find the velocity of the particle at any time t. î + tj) m/s (c) Find the coordinates of the particle at t = 6.00 s. y%3D m (d) Find the speed of the particle at t = 6.00 s. m/s Need Help? Read It Watch It P Type here to searchAmmar flies a drone starting from time = 0 second and position (0, 4m) with an acceleration of ? ⃑ = 2?̂? ?2−4?̂? ?2and an initial velocity of ? ⃑? = 6.00 ?̂ ? ?. Find (a) the vector position of the particle at any time t, (b) the velocity of the particle at any time t, (c) the coordinates of the particle at t = 3.00 s
- Ammar flies a drone starting from time = 0 second and position (0, 4m) with an acceleration of ā = 21" 45 and an initial velocity of v; = 6.00 i ". Find (a) the vector position of the particle at any time t, s2 the velocity of the particle at any time t, (c) the coordinates of the particle at t = 3.00 sA particle initially located at the origin has an acceleration of a⃗ = 3.0ĵm/s2 and an initial velocity of vi = 500îm/s Find (a) the vector position and velocity at any time t and (b) the coordinates and speed of the particle at t = 2.00 s.A particle leaves the origin with an initial velocity 3.00î m/s and a constant acceleration ở -1.00î – 0.50ĵ m/s². When it reaches its maximum x coordinate, what are its (a) velocity and (b) position vector?
- A particle initially located at the origin has an acceleration of a = 4.00ĵ m/s? and an initial velocity of v = 6.00î m/s. (a) Find the vector position of the particle at any time t (where t is measured in seconds). tî + t² j) m (b) Find the velocity of the particle at any time t. tî) m/s (c) Find the coordinates of the particle at t = 4.00 s. X = y = (d) Find the speed of the particle at t = 4.00 s. m/sA particle initially located at the origin has an acceleration of a= 2.00j m/s? and an initial velocity of v = 9.00î m/s. (a) Find the vector position of the particle at any time t (where t is measured in seconds). ti+ (b) Find the velocity of the particle at any time t. e5) m/s i+ (c) Find the coordinates of the particle at t= 3.00 s. m (d) Find the speed of the particle at t = 3.00 s. m/s Need Help? Watch ItA particle initially located at the origin has an acceleration of a = 1.00ĵ m/s2 and an initial velocity of ₁ = 6.00î m/s. (a) Find the vector position of the particle at any time t (where t is measured in seconds). tî + t²ĵ) m (b) Find the velocity of the particle at any time t. Î+ tĵ) m/s (c) Find the coordinates of the particle at t = 4.00 s. X = y = m m (d) Find the speed of the particle at t = 4.00 s. m/s