logging in or signing up Sports and Angular Momentum rickynel Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 933 Category: Sports License: All Rights Reserved Like it (1) Dislike it (0) Added: February 18, 2009 This Presentation is Public Favorites: 0 Presentation Description Angular Motion; Angular Momentum; Moment of Inertia; Conservation of Angular Momentum; Sports body mechanics and angular momentum; Angular Momentum and ... Comments Posting comment... Premium member Presentation Transcript Sports and Angular Momentum : Sports and Angular Momentum Dennis Silverman Bill Heidbrink U. C. Irvine Overview : Overview Angular Motion Angular Momentum Moment of Inertia Conservation of Angular Momentum Sports body mechanics and angular momentum Angular Momentum and Stability How a baseball curves Angular Momentum : Angular Momentum Linear momentum or quantity of motion is P = mv, and inertia given by mass m. m ? v Rotation of a mass m about an axis, zero when on axis, so should involve distance from axis r Angular momentum L = r mv m r L Circular Motion : Circular Motion The angle ? subtended by a distance s on the circumference of a circle of radius r r ? s Radians : Radians Instead of measuring the angle ? in degrees (360 to a circle), we can measure in pizza pi slices such that there are 2p = 6.28 to a full circle So each radian slice is about a sixth of a circle or 57.3 degrees. Then we can write directly: s = ? r with ? in radians. When a complete circle is traversed, ? = 2p, and s = 2p r, the circumference. Angular Velocity : Angular Velocity When a wheel is rotating uniformly about its axis, the angle ? changes at a rate called ?, while the distance s changes at a rate called its velocity v. Then s = r ? gives v = r ?. Angular Momentum and Moment of Inertia : Angular Momentum and Moment of Inertia Let’s recall the angular momentum L = r m v = r m (? r) L = m r² ? In a “rigid body”, all parts rotate at the same angular velocity ?, so we can sum mr² over all parts of the body, to give I = S mr², the moment of inertia of the body. The total angular momentum is then L = I ?. Conservation of Angular Momentum : Conservation of Angular Momentum If there are no outside forces acting on a symmetrical rotating body, angular momentum is conserved, essentially by symmetry. The effect of a uniform gravitational field cancels out over the whole body, and angular momentum is still conserved. L also involves a direction, where the axis is the thumb if the motion is followed by the fingers of the right hand. Examples of Moment of Inertia : Examples of Moment of Inertia Hammer thrower Stick about different rotation axes Diver Baseball bat Pop quiz Applications of Conservation of Angular Momentum : Applications of Conservation of Angular Momentum If the moment of inertial I1 changes to I2 , say by shortening r, then the angular velocity must also change to conserve angular momentum. L = I1 ?1 = I2 ?2 Example: Rotating with weights out, pulling weights in shortens r, decreasing I and increasing ?. Examples of Changes in Moment of Inertia : Examples of Changes in Moment of Inertia Pulling arms in to do spins in ice skating Tucking while diving to do rolls Bicycle wheel flip demo Space station video Rotating different parts of body : Rotating different parts of body Ballet pirouette Balancing beam Ice skater balancing Falling cat or rabbit landing upright Rodeo bull rider Ski turns Ski jumping video Angular Momentum for Stability : Angular Momentum for Stability Bicycle or motorcycle riding Football pass or lateral spinning Spinning top Frisbee Spinning gyroscopes for orbital orientation Helicopter Rifling of rifle barrel Earth rotation for daily constancy and seasons Curving of spinning balls : Curving of spinning balls Bernoulli’s Equation (1738) Magnus Force (1852) Rayleigh Calculation (1877) Bernoulli’s Principle : Bernoulli’s Principle Follow the flow of a certain constant volume of fluid ?V =A*?x, even though A and ?x change Pressure is P=F/A Energy input is Force*distance E = F*?x=(PA)*?x=P*?V kinetic energy is E=½?v²?V So by energy conservation, P+½?v² is a constant When v increases, P decreases, and vice-versa ? Bernoulli’s Principal and Flight : Bernoulli’s Principal and Flight Lift on an airplane wing v higher above wing, so pressure lower P lower P normal V higher Air around a rotating baseball, from ball’s top point of view : Air around a rotating baseball, from ball’s top point of view Higher v, lower P on right Lower v, higher P on left So ball curves to right Pleft Pright Boundary layer Examples of curving balls : Examples of curving balls Baseball curve pitch Baseball outfield throw with backspin for longer distance Tennis topspin to keep ball down Soccer (Beckham) curve around to goal Golf ball dimpling and backspin for range Deflection d = ½ a t² most at end of range You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Sports and Angular Momentum rickynel Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 933 Category: Sports License: All Rights Reserved Like it (1) Dislike it (0) Added: February 18, 2009 This Presentation is Public Favorites: 0 Presentation Description Angular Motion; Angular Momentum; Moment of Inertia; Conservation of Angular Momentum; Sports body mechanics and angular momentum; Angular Momentum and ... Comments Posting comment... Premium member Presentation Transcript Sports and Angular Momentum : Sports and Angular Momentum Dennis Silverman Bill Heidbrink U. C. Irvine Overview : Overview Angular Motion Angular Momentum Moment of Inertia Conservation of Angular Momentum Sports body mechanics and angular momentum Angular Momentum and Stability How a baseball curves Angular Momentum : Angular Momentum Linear momentum or quantity of motion is P = mv, and inertia given by mass m. m ? v Rotation of a mass m about an axis, zero when on axis, so should involve distance from axis r Angular momentum L = r mv m r L Circular Motion : Circular Motion The angle ? subtended by a distance s on the circumference of a circle of radius r r ? s Radians : Radians Instead of measuring the angle ? in degrees (360 to a circle), we can measure in pizza pi slices such that there are 2p = 6.28 to a full circle So each radian slice is about a sixth of a circle or 57.3 degrees. Then we can write directly: s = ? r with ? in radians. When a complete circle is traversed, ? = 2p, and s = 2p r, the circumference. Angular Velocity : Angular Velocity When a wheel is rotating uniformly about its axis, the angle ? changes at a rate called ?, while the distance s changes at a rate called its velocity v. Then s = r ? gives v = r ?. Angular Momentum and Moment of Inertia : Angular Momentum and Moment of Inertia Let’s recall the angular momentum L = r m v = r m (? r) L = m r² ? In a “rigid body”, all parts rotate at the same angular velocity ?, so we can sum mr² over all parts of the body, to give I = S mr², the moment of inertia of the body. The total angular momentum is then L = I ?. Conservation of Angular Momentum : Conservation of Angular Momentum If there are no outside forces acting on a symmetrical rotating body, angular momentum is conserved, essentially by symmetry. The effect of a uniform gravitational field cancels out over the whole body, and angular momentum is still conserved. L also involves a direction, where the axis is the thumb if the motion is followed by the fingers of the right hand. Examples of Moment of Inertia : Examples of Moment of Inertia Hammer thrower Stick about different rotation axes Diver Baseball bat Pop quiz Applications of Conservation of Angular Momentum : Applications of Conservation of Angular Momentum If the moment of inertial I1 changes to I2 , say by shortening r, then the angular velocity must also change to conserve angular momentum. L = I1 ?1 = I2 ?2 Example: Rotating with weights out, pulling weights in shortens r, decreasing I and increasing ?. Examples of Changes in Moment of Inertia : Examples of Changes in Moment of Inertia Pulling arms in to do spins in ice skating Tucking while diving to do rolls Bicycle wheel flip demo Space station video Rotating different parts of body : Rotating different parts of body Ballet pirouette Balancing beam Ice skater balancing Falling cat or rabbit landing upright Rodeo bull rider Ski turns Ski jumping video Angular Momentum for Stability : Angular Momentum for Stability Bicycle or motorcycle riding Football pass or lateral spinning Spinning top Frisbee Spinning gyroscopes for orbital orientation Helicopter Rifling of rifle barrel Earth rotation for daily constancy and seasons Curving of spinning balls : Curving of spinning balls Bernoulli’s Equation (1738) Magnus Force (1852) Rayleigh Calculation (1877) Bernoulli’s Principle : Bernoulli’s Principle Follow the flow of a certain constant volume of fluid ?V =A*?x, even though A and ?x change Pressure is P=F/A Energy input is Force*distance E = F*?x=(PA)*?x=P*?V kinetic energy is E=½?v²?V So by energy conservation, P+½?v² is a constant When v increases, P decreases, and vice-versa ? Bernoulli’s Principal and Flight : Bernoulli’s Principal and Flight Lift on an airplane wing v higher above wing, so pressure lower P lower P normal V higher Air around a rotating baseball, from ball’s top point of view : Air around a rotating baseball, from ball’s top point of view Higher v, lower P on right Lower v, higher P on left So ball curves to right Pleft Pright Boundary layer Examples of curving balls : Examples of curving balls Baseball curve pitch Baseball outfield throw with backspin for longer distance Tennis topspin to keep ball down Soccer (Beckham) curve around to goal Golf ball dimpling and backspin for range Deflection d = ½ a t² most at end of range