Baseball Trajectories: A Game of Inches Jim Hildensperger Kyle Spaulding Dale Garrett.

Slides:

Advertisements

Similar presentations

Motion Speed Vectors Acceleration

Advertisements

Physics of Golf Presented by: Tyler Merkel and Heath Noess.

Logan Mounce Dallin Schmidt Patrick Rogers. The law of Inertia.

Newton’s 2nd and 3rd Laws of Motion

Unbalanced Forces and Motion Unit: 06 Lesson: 01.

Motion Review.  What kinds of forces cause an object to change its motion?  Unbalanced forces.

Locomotion in a physical world Most animals have some form of locomotion which separate them from plants and fungi What is motion? A natural event that.

Physics Physics Tutoring Wednesday: 2:15pm – 3:15pm.

Stephanie Mulder Haley Williams. History Softball was started in 1887 when two colleges played baseball indoors with boxing gloves and “soft balls.” In.

The Physics of Sports Main Injector, 2 miles around Tevatron, 4 miles around Fermilab.

Forces and the Laws of MotionSection 3 Newton’s First Law  Experimentation led Galileo to the idea that objects maintain their state of motion or rest.

Projectile Motion with Wind and Air Resistance

Marlin Connelly. Out of all sports, baseball is probably the one that is most affected by physics. On a single play, there is so much going on that relates.

By Cade and Georgia.  Newton’s laws of motion, including an understanding of force, mass and weight, acceleration and inertia applied to sport and physical.

Chapter 13 – Vector Functions

5.6 Projectiles Launched at an Angle

Projectile Notes 1. Definition of a Projectile: An object that is “projected” or thrown, which has no capacity for self-propulsion. 2. Actual forces on.

PRINCIPLES OF FORCE PRODUCTION. The game of Ultimate Frisbee was a challenging one and there were a number of factors that contributed to success within.

1.Acceleration is a change in ______________ or ___________________. - Acceleration includes: - starting -stopping -slowing down -speeding up - changing.

Branson Packard: Science Fair

Physics the study of the relationship between matter and energy.

SACE Stage 2 Physics Motion in 2 Dimensions.

Momentum and Collisions

Describe Speed A way to describe motion –Average speed - Rate of motion calculated by dividing the distance traveled by the amount of time it takes to.

10 extra topic: Projectile Motion Greg Kelly, Hanford High School, Richland, Washington Photo by Vickie Kelly, 2002 Fort Pulaski, GA.

Forces in 1 Dimension Chapter Force and Motion Force is push or pull exerted on object Forces change motion –Makes it important to know the forces.

Newton’s Laws of Motion

Newton’s 3 Laws of Motion. Newton’s first Law The Law of Inertia An object Stays in the state of rest or motion unless acted on by another force.

Warm Up 8/24 What is SI Unit Grams measure _________________. Liters measure _________________. Meters measure _________________.

10.4 Projectile Motion Greg Kelly, Hanford High School, Richland, Washington Photo by Vickie Kelly, 2002 Fort Pulaski, GA.

10.4 Projectile Motion Fort Pulaski, GA. One early use of calculus was to study projectile motion. In this section we assume ideal projectile motion:

What ’ s the Connection to Softball? Observation The players, ball, and bat move around during a game of softball. Question What forces are acting upon.

Linear Motion Review.

Forces & Motion. Describe Acceleration A change in velocity – which may be: –A change in speed Starting Stopping Speeding up Slowing down –A change in.

-Motion is the state in which one object’s distance from another is changing.

Types of Motion Topic 4 – Movement Analysis

Motion and Forces Review

Motion/Newtons Physics Review $100 $400 $300 $200 $400 $200 $100$100 $400 $200$200 $500$500 $300 $200 $500 $100 $300 $100 $300 $500 $300 $400$400 $500.

Isaac Newton developed three laws that help us explain the relationship between forces acting on a body and the motion of a body.

Using Newton’s Laws Section 4.2 Page 96. Newton’s 2 nd Law Describes the connection between the cause of a change in an object’s velocity and the resulting.

 Rules and gameplay  Scoring  Field  Red is input.

Information gathered from: The Wiffle Ball Inc. ( )

In chapter 1, we talked about parametric equations. Parametric equations can be used to describe motion that is not a function. If f and g have derivatives.

Johnny Fajardo. Statement of Problem In hitting for distance, which bat allows a farther hit, a wood one or a corked one.

ON THE MOVE MOMENTUM. These questions relate to our last area on force production. 1.State each of Newton’s three laws and demonstrate your understanding.

The Physics of Sports. Main Injector, 2 miles around Tevatron, 4 miles around Fermilab.

200 pt 300 pt 400 pt 500 pt 100 pt 200 pt 300 pt 400 pt 500 pt 100 pt 200pt 300 pt 400 pt 500 pt 100 pt 200 pt 300 pt 400 pt 500 pt 100 pt 200 pt 300 pt.

Impulse = F  t = m  v F = Force (N)  t = Elapsed time (s) m = Mass (kg)  v = Change in velocity (m/s) Force, time, mass, and  velocity Example: A.

Newton’s Laws of Motion. 1 st Law of Motion (Law of Inertia) A body at rest will remain at rest.

Projectile Motion.

Centripetal Force Copyright Sautter 2003.

Upward Motion. An Army paratrooper's parachute fails to open on a jump, good fortune is on the paratrooper’s side and he lands in a huge pile of manure.

Brain Teaser During the Little League baseball season, every team plays every other team in the league ten times. If there are ten teams in the league,

GOLF DRIVER OPTIMIZATION COLE SNIDER, ANTHONY BOYD, FRANK RIVERA, MAX DREAGER.

Lesson 18 OBJECTIVES Describe the force exerted by a battery- powered fan car. Describe the motion of a fan car Determine the effect of a constant force.

Deconstructing the Home Run Surge: A Physicist’s Approach

FORCE A force is any influence that can change the velocity of a body. Forces can act either through the physical contact of two objects (contact forces:

Biomechanical Principles

What is a force?????.

Conceptual Physics 11th Edition

Particle Impulse-Momentum: Example Problem 1

Motion Study Guide Answer Key.

Newton’s 2nd Law of Motion

Newton’s Laws of Motion

Forces and Motion Simulation Summary Notes

Newton’s 1st and 2nd Laws.

Test: Friday January 12th

Week 1 Vocabulary.

1st hour Science November Newton’s laws of Motion!

Presentation transcript:

Baseball Trajectories: A Game of Inches Jim Hildensperger Kyle Spaulding Dale Garrett

Baseball: Take Me out to the Ball Game -Why is baseball considered a game of inches? -On average, there is approximately 1 home run hit during a full MLB game. This stat is based on the number of home runs allowed divided by total number of batters faced, times the average number of batters per game in that specific league (generally around 38 batters a game). -Importance of the pitcher batter confrontation -According to USA Today, hitting a baseball is the absolute hardest thing to do in sports. “Considering that a major-league pitch can reach speeds more than 95 mph, hitters have only 0.4 seconds to find the ball, decide where the ball is going and swing the bat. -In the MLB, you'll get a multimillion-dollar contract if you can hit a ball successfully anywhere near three out of 10 times. -Yale University physics professor Robert Adair explains that it takes 0.15 seconds for humans to voluntarily blink their eyes in response to visual signals.

Factors Effecting the Trajectory of a Batted Ball -Initial Velocity (V o, meters per second ): The velocity a ball leaves the bat after contact -Spin ( w, radians per second ): The spin rate in which a ball spins as it flies through the air -Air Temperature (T, degrees Fahrenheit ): The average temperature of where the ball is hit, when it is hit -Altitude (Y, feet ): The measured altitude of the stadium where the baseball is hit -Angle of Contact ( θ, degrees ): The angle at which the ball leaves the bat after contact -Lift and Drag forces (F L and F D, Newton ): The Forces acting upon the ball as it flies through the air

Hypothesis -The distance a batted ball travels increases as the ball’s rotation rate increases -The optimum angle of a batted ball depends on its spin rate -A batted ball travels farther in hotter temperatures and higher altitudes How do changes in the factors of batted ball’s Trajectory effect how far it goes?

Newton’s Laws 1 st Law- An object in a state of motion tends to remain in motion unless an external force is applied to it. 2 nd Law-The relationship between an object's mass m, its acceleration a, and the applied force F is F = ma. In this law the direction of the force vector is the same as the direction of the acceleration vector. 3 rd Law-For every action there is an equal and opposite reaction.

Force Diagram of a Baseball

Calculating the Initial Forces

Approximating velocities

Approximating Distance

Our modified model Here it is

Results: Range and Spin Rate The range of the ball increases as the spin rate increases. With spin rate of 100 rad/sec, maximum range is 112 meters With spin rate of 300 rad/sec, maximum range is 121 meters With a spin rate of 600 rad/sec, maximum range is 134 meters Range is maximized when the ball is spinning its fastest

Results: Spin Rate and Angle of Contact A ball with a slower spin rate requires a greater angle of contact to reach its maximum range. With spin rate of 600 rad/sec, maximum range occurs when angle of contact is 15º With spin rate of 100 rad/sec, maximum range occurs when angle of contact is 31º

Results: Data

Results: Maximizing Angle of Contact Spin Rate= 400 rad/sec Temperature= 56º F Elevation= 0 Wind= 0 The angle of contact that maximizes the ball’s range (125 meters) is 22º.

Results: Range and Altitude Elevation affects the range of a batted baseball. Range can increase as much as 10 meters from an elevation of 5 to 5205 feet. Major League Baseball ballparks range in altitude from Dolphin Stadium at 5 feet above sea level, to Coors Field at 5198 feet above sea level. According to our model, there is a distinct advantage to playing at stadiums with higher altitudes.

Results: Range and Air Temperature Temperature also has a significant impact on the range of a ball. A ball hit in 92º F weather travels up to 6 meters farther than a ball hit in 32º F weather.

Results: Accuracy of Our Model In comparing our results with those obtained by Watts and Baroni (1989), the maximum ranges and optimum angles of contact for varying spin rates are quite similar. For a spin rate of 300 rad/sec the maximum ranges and optimum angles are nearly identical. For other spin rates, the results are not as similar, however they are still reasonably close. The maximum range between models differs by as much as 9 meters and the angle of contact differs by no more than 7º.

Results: Accuracy of Our Model

Conclusion After analyzing the estimated trajectories of batted baseballs using a modified version of Professor Nathan’s model, it is apparent that a ball’s range is significantly affected by spin rate, air temperature, and altitude. As each of these parameters is increased, the ball’s range increases. Also, the optimum angle for maximizing the ball’s range is dependent on the spin rate. As the spin rate of the ball is increased, the angle required to maximize the ball’s range decreases. If baseball truly is a “game of inches,” such changes in range caused by varying spin rates, angles of contact, air temperatures, and altitudes are great enough to significantly alter the outcome of a game. Optimal Conditions for Maximizing a Batted Ball’s Trajectory