Wiki User
∙ 14y agoThat's an impossible Q. Try me on something easier
Wiki User
∙ 14y agoUnfortunately this question can't be answered. The reason for this, is because there is no stated direction for the 'velocity' therefore it isn't a vector quantity, it's scalar.
'IN' stands for 'innings' and is usually seen in a line of statistics for a pitcher.
A pitcher is not a standard size so the answer depends on the pitcher.
speed of baseballIn MLB, the distance from the pitcher's mound to home plate is 60 1/2 feet. A baseball traveling at 100 mph is covering 146.7 feet every second. That means it takes under 1/2 of a second (0.412 seconds to be exact) for a 100 mph fastball to travel from the pitcher to the batter!
The answer depends on the situation. In baseball, when the catcher signals the pitcher with finger signals, he is concealing his communication from the other team. That is not unethical. Without such justification, the answer seems to be yes.
work at it
Force = mass x acceleration Therefore you need to know what time it takes to accelerate the 250 gramme ball from zero to 50 miles per second. ( 50 mi/s is supersonic, did you mean 50mph?) Acceleration = (final velocity - initial velocity) divided by time. Therefore a = (80 467.2 m.s-1 - 0) / t seconds. Therefore force (Newtons) = 0.25 kilogramme x 80 467.2 m.s-1 / t seconds. (80 467.2 metres per second = 50 miles per second) (no baseball pitcher can ever achieve that, by the way).
A pitcher has a high mound because he can get some velocity.
I am assuming the initial speed is 6.2 m/s Let upward motion be positive! Gravity decreases the speed by 9.8 m/s each second Acceleration due to gravity = -9.8 m/s each second (negative because gravity accelerates objects downward) Find time to reach the top of the path! Final velocity at the top = 0 m/s Initial velocity = 6.2 m/s Final velocity = Initial velocity + acceleration * time Time - = (final velocity - initial velocity) ÷ acceleration Time = (0 - 6.2) ÷ -9.8 = 0.633 seconds (to reach top) The path is symmetrical. 0.633 seconds to reach top and 0.633 seconds to reach glove again. Total time = 12.66 seconds
In physics, Velocity = Distance/Time. Therefore, Time= Distance/Velocity. Insert the Velocity and you get Time= Distance/100. However you'd have to convert either the distance to miles or velocity to feet. 1 mile= 5,280 feet
When a pitcher throws a baseball, the force from the pitcher's hand accelerates the ball, changing its velocity. When a car applies brakes, the force of friction between the tires and the road slows down the car, changing its velocity. When a rocket launches into space, the thrust from the engines accelerates the rocket, changing its velocity.
96.03 ft/s = 29.27 m/s = 65.5 mph = 105 kph = velocity of the ball
When an object undergoes uniform acceleration, the average velocity over the entire motion is half the sum of the initial and final velocities. So, in order to find the final velocity, which is the double of the average velocity, you multiply the average velocity by 2. This relationship holds true under the assumption of constant acceleration.
Unfortunately this question can't be answered. The reason for this, is because there is no stated direction for the 'velocity' therefore it isn't a vector quantity, it's scalar.
No, in baseball the pitcher does not follow the instructions of the catcher.
What is the height of the pitcher's mound in college baseball
There is a new baselayer out which increase velocity for pitching, batting and running Its by a company called asus you can find them at www.asus.uk.com I bought one and it works for me . good luck