Vertical Launch

The vertical launch is a uniformly accelerated rectilinear motion (u.a.r.m.) or constant acceleration motion in which a body is launched vertically with some initial velocity from a certain height and do not find any resistance on its way. We can distinguish two cases based on the system of reference considered:

• We launch the body upward and therefore the initial velocity is positive (v₀>0). In this case the equations for the upward vertical launch are:

  $$y=\mathrm{H}+v_{0}t-\frac{1}{2}g{t}^2$$
  $$v=v_0-g\cdot t$$
  $$a=-g$$

• We launch the body downward and therefore the initial velocity is negative (v₀<0). In this case the equations for the downward vertical launch are:

  $$y=\mathrm{H}-v_{0}t-\frac{1}{2}g{t}^2$$
  $$v=-v_0-g\cdot t$$
  $$a=-g$$

Where:

• y: Final position of the body. Its unit in the International System (SI) is the meter (m)
• v, v₀: The final and initial velocity of the body respectively. Its unit in the International System (SI) is the meter per second (m/s)
• a: Acceleration of the body while in motion. Its unit in the International System (SI) is the meter per second squared (m/s²)
• t: Time spent on the motion. Its unit in the International System (SI) is the second (s)
• H: Height from which the body is launched. It is a measurement of length and therefore is unit is the meter (m)
• g: Value of the gravitational acceleration which on Earth surface can be considered equal to 9.8 m/s²