For an object moving vertically, we use the following equations (assuming upward is positive): Position-Time: Torricelli's Equation: 1. Analyze Vertical Upward Motion When an object is thrown upward with an initial velocity
✅In vertical motion, the maximum height reached is determined solely by the initial velocity and gravity , following the relation 1_Caduta_libera_Parte_2_
, it decelerates until it reaches its maximum height. At the peak of its trajectory, its instantaneous velocity is Set in the first equation: Maximum Height ( Hmaxcap H sub m a x end-sub ): Substitute tmaxt sub m a x end-sub into the position equation: 2. Visualize the Trajectory The graph below illustrates the position of an object thrown upward at For an object moving vertically, we use the
In real-world scenarios (Parte 2 often introduces this), air resistance Fdcap F sub d acts against the motion. As speed increases, Fdcap F sub d increases until it equals the gravitational force Fgcap F sub g When , the acceleration becomes zero. Terminal Velocity ( Visualize the Trajectory The graph below illustrates the
. Note the parabolic shape, where the peak represents the moment the object begins to fall back down.