DCch igeu 2x (m/s), a is acceleration (m/s2), and x is position (m): a) x =...
If we measure acceleration (a) in m/s2, velocity (v) in m/s, position (x) in meters, and time (t) in seconds, which one of the following equations could work in terms of units? t2 = x/a x2 = 2av Ov = 2ax
A car starts at position x = 0, with an initial velocity of 3.5 m/s and an acceleration of 0 m/s2. What is its position when the elapsed time is 7.4 s? (Please be sure to include units in your answer. Express your answer to one decimal point.)
An object moves in along the x-axis with an acceleration given by: a = 4t (m/s2). The position of the object at t=0.0 is 7 m, and its velocity at t=0.0 s is 5 m/s. Calculate the position at t=6 s.
The position of an object is given by x-at3-e O-13 ms2 4.6 m/s2 13 m/s O2.9 m/s t, wherea-41 m/s3, -22m/s2, -17ms, and x and t are in SI units. What is the instantaneous acceleration of the object when t 0.7s
Q5 The position of an object moving along the x-axis is given by x (5.0 m/s) (10.0 m/s)(4.0 m/s)s Is the acceleration constant? A. Yes, it is equal to-10.0 m/s2. B. Yes, it is equal to -20.0 m/s2. C. Yes, it is equal to 4.0 m/s3. D. Yes, it is equal to 8.0 m/s3. E. No
The acceleration of a particle is given by a = 12(10 – s)-2 m/s2 where s is in meters as it moves along a straight line. If the particle’s initial velocity is v0 = 4 m/s and its initial position is s0 = 2 m, determine the velocity of the particle at s = 8 m. Ans: 5 m/s
An object's motion can be described by the equation x(t) = (6.0 m/s2)t2-(2.0 m/s)t+1.0 m. a. Find the object's position, velocity, and acceleration at t = 3.0 s. Plot the object's position, velocity, and acceleration (all on separate plots) from t = 0 s to t= 5 s. The following graph shows an object's velocity over time. At t-0 s the objects begins its motion at x = -2m.b. What is the object's displacement from t=0 s to t = 6 s? c....
A particle moving with a constant acceleration has a velocity of 20 cm/s when its position is x = 10 cm. Its position 4.0 s later is x = - 30 cm. What is the acceleration of the particle? Select one: A. 5.0 cm/s2 B. 15 cm/s2 O C. 10 cm/s2 D. - 15 cm/s2 O E. - 5.0 cm/s2
A car moves with a constant acceleration of 3.6 m/s2. At a time of 5 s, it is 110 m beyond a mile marker; at a time of 8 s, it has a velocity of 10 m/s. Find the car's position after the mile marker at time 8 s.
A particle is moving along a straight path such that the acceleration a = (3v2-2) m/s2, where v is in m/s. If v = 15 m/s when s = 0 and t = 0, please determine the particle’s position, velocity, and acceleration as functions of time.