Uh, what? The question doesn't make much sense.
"acceleration": the acceleration is the acceleration due to gravity, 9.8 meters per second per second or thereabouts; none of the rest of what you've said makes any difference. There will also be a (probably negligible) acceleration due to air resistance.
"maximum velocity": do you mean lightspeed?
"from nine feet high": there's a team called the Giants, but that's just a nickname.
Neglecting air resistance, the components of acceleration of an object that's dropped, tossed, pitched, flung, lobbed, heaved, launched, or shot are constant. The horizontal component is zero. The vertical component is 9.8 meters per second2, directed downward. These are both constant throughout the object's trajectory.
Speed(74) = 72.2Speed(50) = 44.7
A triangle is not necessarily pitched or non-pitched. It is more of an accessory.
Will white
car 1500 kilograms baseball 150 grams cars energy = 1/2 x 1500 x (10/3.6)2 = 5,787 joules baseballs energy = 1/2 x 0.15 x (150/3.6)2 = 130 joules (i worked it out for energy then noticed it said momentum) car = 1,500 x 10/3.6 = 4,166.67 kgm/s baseball = 0.15 x 150/3.6 = 6.25 kgm/s the car
When pitched, the horizontal acceleration ends when it leaves the pitcher's hand, which is its maximum speed. It will still accelerate downward due to gravity, but this is much less than the loss of velocity due to air resistance.When being hit, the maximum speed is at the instant it leaves contact with the bat.(For reference purposes, the fastest thrown pitches are between 100 and 105 mph, or 44 to 47 meters/second, while home-run hits exceed 110 mph, or 49 m/sec.)
It is usually a continually varying amount which depends on its initial velocity - when it is pitched or hit - and other forces such as the acceleration due to gravity, aerodynamic drag and so on.
The speed of the baseball as it crosses home plate will depend on the initial velocity, the distance to home plate, any acceleration, and air resistance. This means that it's not possible to predict the exact speed without knowing more details about the specific situation. Generally, a baseball pitched at 74 mph may have a speed of around 72.2 mph when it crosses home plate due to air resistance and gravity.
Neglecting air resistance, the components of acceleration of an object that's dropped, tossed, pitched, flung, lobbed, heaved, launched, or shot are constant. The horizontal component is zero. The vertical component is 9.8 meters per second2, directed downward. These are both constant throughout the object's trajectory.
The scenario described relates to Newton's second law of motion, which states that the acceleration of an object is directly proportional to the net force acting upon it and inversely proportional to its mass. A pitched baseball is thrown with greater force than a gently thrown one, resulting in a higher acceleration and, consequently, a faster speed. This illustrates how the amount of force applied affects the motion of an object.
Because he pitched a tent.
Tommy John pitched 26 seasons.
39 mph
Speed(74) = 72.2Speed(50) = 44.7
Going back to 1871, out of 17172 baseball players, 8240 have pitched in at least one game, 48%
Satchel Paige was either 59 or 65 when he pitched his last game, depending on the source.
probably a 103 mph pitched ball