Difference between revisions of "The Physics of Sports"
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| label2 = Course Code | data2 = [[The Physics of Sports|PHSP]] | | label2 = Course Code | data2 = [[The Physics of Sports|PHSP]] | ||
| label3 = Year Opened | data3 = 2013 | | label3 = Year Opened | data3 = 2013 | ||
− | | label4 = Sites Offered | data4 = [[ | + | | label4 = Sites Offered | data4 = [[LAN]] |
− | | label5 = Previously Offered | data5 = [[SUN]] | + | | label5 = Previously Offered | data5 = [[BRI]], [[SCZ]], [[SUN]] |
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{{CAA courses}} | {{CAA courses}} | ||
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How does a pitcher get a baseball to curve in flight? Why does an ice skater spin faster when she pulls her arms in? How can Tony Hawk land a “900,” a trick involving the completion of two-and-a-half aerial revolutions on a skateboard? Physics holds the key to answering these and other fascinating sports questions. | How does a pitcher get a baseball to curve in flight? Why does an ice skater spin faster when she pulls her arms in? How can Tony Hawk land a “900,” a trick involving the completion of two-and-a-half aerial revolutions on a skateboard? Physics holds the key to answering these and other fascinating sports questions. | ||
− | In this introductory physics course, students use sports to explore mechanics: kinematics, dynamics, momentum, energy, and power. | + | In this introductory physics course, students use sports to explore mechanics: kinematics, dynamics, momentum, energy, and power. You’ll experiment with billiard balls to investigate collisions and conservation of momentum, study centripetal forces to determine how fast a racecar can take a turn, and use kinematics and projectile motion to discover the best angle from which to shoot a basketball. You and your classmates will explore the real-world applications of physics concepts in sports through lectures, hands-on activities, labs, simulations, mathematical problem sets, and research projects. Along the way, you’ll develop a strong understanding of the principles that give star athletes an edge over their competitors. |
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[[Category: Courses]] | [[Category: Courses]] | ||
− | [[Category: | + | [[Category: Lancaster]] |
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Latest revision as of 08:34, 22 March 2023
Science Course | |
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Course Code | PHSP |
Year Opened | 2013 |
Sites Offered | LAN |
Previously Offered | BRI, SCZ, SUN |
Course Description
From the CTY Summer Catalog:
How does a pitcher get a baseball to curve in flight? Why does an ice skater spin faster when she pulls her arms in? How can Tony Hawk land a “900,” a trick involving the completion of two-and-a-half aerial revolutions on a skateboard? Physics holds the key to answering these and other fascinating sports questions.
In this introductory physics course, students use sports to explore mechanics: kinematics, dynamics, momentum, energy, and power. You’ll experiment with billiard balls to investigate collisions and conservation of momentum, study centripetal forces to determine how fast a racecar can take a turn, and use kinematics and projectile motion to discover the best angle from which to shoot a basketball. You and your classmates will explore the real-world applications of physics concepts in sports through lectures, hands-on activities, labs, simulations, mathematical problem sets, and research projects. Along the way, you’ll develop a strong understanding of the principles that give star athletes an edge over their competitors.