The position of a particle confined to move on an axis varies according to the equation...

3.   A     particle     moves     along     the     x-­‐axis     according     to    &nbsp

3.   A     particle     moves     along     the     x-­‐axis     according     to     the     function     x=     7.0t4     +     3.5t3,     where     x     is     in     meters      and     t     in     seconds.     (8     marks)      3.1 Calculate     the     displacement     of     the     particle     from     time     t     =     0s     to     t     =     2s     of     its     motion.     (1     mark)      3.2 Calculate     the     average     velocity     of     the     particle     from     time     t     =     0s     to     t     =     2s     of     its     motion.     (1     mark)     3.3 Calculate     the     instantaneous     velocities     of     the     particle     at     t=3.0s  ...

The velocity of a particle moving along the x-axis varies with time according to v(t) =...

The velocity of a particle moving along the x-axis varies with time according to v(t) = A + Bt−1, where A = 7 m/s, B = 0.33 m, and 1.0 s ≤ t ≤ 8.0 s. Determine the acceleration (in m/s2) and position (in m) of the particle at t = 2.6 s and t = 5.6 s. Assume that x(t = 1 s) = 0. t = 2.6 s acceleration  m/s2 position  m ? t = 5.6 s acceleration  m/s2   position  m ?

The velocity of a particle constrained to move along the x-axis as a function of time...

The velocity of a particle constrained to move along the x-axis as a function of time t is given by: v(t)v(t)=−(−(14/t0)sin(t/t0)/t0)sin(t/t0). Part A: If the particle is at x=8 m when t=0, what is its position at t = 9t0. You will not need the value of t0 to solve any part of this problem. If it is bothering you, feel free to set t0=1everywhere. Part B: Denote instantaneous acceleration of this particle by a(t). Evaluate the expression 8 +v(0)t+a(0)t2/2+v(0)t+a(0)t2/2...

The equation describing the position of a particle executing simple harmonic oscillation is x = 20...

The equation describing the position of a particle executing simple harmonic oscillation is x = 20 cos(30pi t), where x is in meters and t is in seconds. Find a) the period of the oscillation b) the amplitude of the oscillation c) the phase at times t1 = 1/180 s and t2 = 1/90 s, and d) the position, the velocity, and the acceleration at those times t1 and t2.

A particle moves according to a law of motion , , where is measured in seconds...

A particle moves according to a law of motion , , where is measured in seconds and in feet. Find the velocity at time . What is the velocity after second? When is the particle at rest? When is the particle moving in the positive direction? Find the total distance traveled during the first seconds. Draw a diagram like Figure 2 to illustrate the motion of the particle. Find the acceleration at time and after second. Graph Icon Graph the...

Two particles move along an x axis. The position of particle 1 is given by x...

Two particles move along an x axis. The position of particle 1 is given by x = 10.0t2 + 6.00t + 4.00 (in meters and seconds); the acceleration of particle 2 is given by a = -9.00t (in meters per seconds squared and seconds) and, at t = 0, its velocity is 24.0 m/s. When the velocities of the particles match, what is their velocity?

A 3.60-kg particle moves along the x axis. Its position varies with time according to x...

A 3.60-kg particle moves along the x axis. Its position varies with time according to x = t + 3.0t^3, where x is in meters and t is in seconds. (a) Find the kinetic energy of the particle at any time t. (Use the following as necessary: t.) K = (b) Find the magnitude of the acceleration of the particle and the force acting on it at time t. (Use the following as necessary: t.) a = F = (c)...

2). A particle moving on the x-axis has a time-dependent position (t) given by the equation...

2). A particle moving on the x-axis has a time-dependent position (t) given by the equation x (t) = ct - bt^3. Where the units of x are meters (m) and time t in seconds (s). (Hint: you must get derivatives, you need graph paper) (a) So that the position in x has units of meter which are the units of the constants c and b? Sic = 5yb = 1.Desdeti = 0satf = 3s. (b) What is its displacement,...

The position of a particle moving along the x axis is given in centimeters by x...

The position of a particle moving along the x axis is given in centimeters by x = 9.31 + 1.02 t3, where t is in seconds. Calculate (a) the average velocity during the time interval t = 2.00 s to t = 3.00 s; (b) the instantaneous velocity at t = 2.00 s; (c) the instantaneous velocity at t = 3.00 s; (d) the instantaneous velocity at t = 2.50 s; and (e) the instantaneous velocity when the particle is...

The position of a particle moving along the x axis is given in centimeters by x...

The position of a particle moving along the x axis is given in centimeters by x = 9.58 + 1.68 t3, where t is in seconds. Calculate (a) the average velocity during the time interval t = 2.00 s to t = 3.00 s; (b) the instantaneous velocity at t = 2.00 s; (c) the instantaneous velocity at t = 3.00 s; (d) the instantaneous velocity at t = 2.50 s; and (e) the instantaneous velocity when the particle is...