H= -1/2gt2+vt+s
Where
H is the ending height
g is the rate of gravity (32 ft/sec2 or 9.8 m/sec2)
t is the time
v is the initial velocity
and s is the starting height.
Wiki User
∙ 12y agohorizontal is side to side vertical is up and down
Vertical motion is the motion that is perpendicular to the ground.
Any vertical line has an undefined slope. The equation of the vertical line is x = a where the x-intercept is a.
That refers to up and down motion.
Time on horizontal, Distance on Vertical
Yes, a ball thrown in an arbitrary direction follows the equation of projectile motion as long as the only force acting on it is gravity. The motion can be broken down into horizontal and vertical components, with the horizontal motion being constant and the vertical motion following a parabolic trajectory.
The time the ball is in the air can be found using the vertical motion equation: time = 2 * (initial vertical velocity) / (gravity). The range can be calculated using the horizontal motion equation: range = (initial velocity)^2 * sin(2*launch angle) / gravity. The maximum height can be determined by finding the vertical component of the flight time and substituting that into the vertical motion equation: max height = (initial vertical velocity)^2 / (2 * gravity).
horizontal is side to side vertical is up and down
The vertical motion of an object refers to its movement in the up and down direction, typically against the force of gravity. This motion can involve concepts such as acceleration, velocity, and displacement in the vertical direction. The vertical motion of an object can be analyzed using equations of motion and principles of kinematics.
No, horizontal motion does not affect the vertical motion of a projectile. The two components of motion (horizontal and vertical) are independent of each other in the absence of external forces such as air resistance. The vertical motion is governed by gravity, while the horizontal motion remains constant.
is motion that is perpendicular to the ground
Projectile motion has two components horizontal motion and vertical motion. Gravity affects only the vertical motion of projectile motion.
A strike-slip fault involves horizontal movement along the fault plane, where rocks on opposite sides slide past each other horizontally.
Horizontal motion refers to movement along the x-axis, while vertical motion refers to movement along the y-axis. In horizontal motion, the speed and acceleration are typically constant, while in vertical motion, the influence of gravity causes changes in speed and acceleration. Both types of motion can occur simultaneously in two-dimensional motion.
Vertical motion is the motion that is perpendicular to the ground.
Newton's first equation of motion states that an object will remain at rest or in uniform motion in a straight line unless acted upon by an external force. In other words, an object will maintain its velocity unless a net external force is applied to change it.
The initial velocity of the ball can be calculated using the kinematic equation for projectile motion. By using the vertical component of velocity (V0y) and the time of flight, we can determine the initial velocity needed for the ball to reach the hoop. The velocity components are V0x = V0 * cos(θ) and V0y = V0 * sin(θ), where θ is the initial angle. The time of flight in this case is determined by the vertical motion of the ball, and it can be found by using the equation of motion for the vertical direction, considering the initial vertical velocity, the gravitational acceleration, and the vertical displacement of the ball. Once these values are calculated, the initial velocity can be computed by combining the horizontal and vertical components of the motion.