The thrown ball will have a greater speed when it reaches ground level because it has a horizontal component of velocity in addition to the vertical component. The rock only has a vertical component of velocity due to gravity.
Yes, objects dropped from a greater distance will hit the ground with a greater force due to the additional time they have to accelerate toward the Earth's surface. The force of gravity causes objects to accelerate as they fall, and this acceleration increases the speed and impact force of the object when it reaches the ground.
The maximum value a wave reaches relative to its resting position is called the amplitude. It represents the maximum displacement of the wave from its equilibrium position.
The rock will have a greater speed when it reaches the ground level compared to the ball thrown horizontally because the rock will be accelerated by gravity as it falls vertically, while the ball thrown horizontally will only have its initial horizontal velocity.
The maximum value a wave reaches relative to its resting position is called the amplitude of the wave. Amplitude is the distance from the highest point of the wave to its resting position.
The maximum value a wave reaches relative to its resting position is called the amplitude. Amplitude represents the maximum displacement of a wave from its equilibrium position. It is a measure of the wave's intensity or strength.
The imaginary line halfway between the maximum and minimum points that a wave reaches vertically is called the equilibrium position or the rest position. It represents the average position of the wave when it is not oscillating.
It doesn't matter as long as they don't touch the net.
The frame is dropped
Fired ammunition from a firearm reaches a much higher initial velocity due to explosive propellant forces. In contrast, ammunition dropped from a high altitude reaches a terminal velocity where gravity pulling down is balanced by air resistance pushing up. The fired bullet maintains its higher velocity until slowed by air resistance and gravity, while dropped ammunition reaches a constant speed due to these opposing forces.
That's the wave's "amplitude".
Anytime a third strike is dropped the runner can advance to first unless he is tagged or the ball is thrown to first before he reaches.