Video PdP AI: The Energy Behind Every Bowling Strike
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Resource ID
4341
Resource type
Video
Date Creation
2025-12-01 03:41:33
Access
Open
Contributed by
PEL POLITEKNIK NILAI
Field of Study
Kejuruteraan Mekanikal
Programme Name
Diploma Kejuruteraan Mekanikal
Institution
Politeknik
Politeknik
Politeknik Nilai
Named person(s)
MOHD HAMDAN BIN ABDUL RAZAK, NOOR HASANAH THAM SHU-YIN
Publisher / Producer
POLITEKNIK NILAI
Date
2025-12-01
State
Negeri Sembilan
Sub Video Type
Video AI
Color Mode
Color
Content Creator
MOHAMAD FIKREE BIN ALIAS, MOHD HAMDAN BIN ABDUL RAZAK, NOOR HASANAH THAM SHU-YIN, SARAH NARIMAH NOORAZYZE BINTI ZAINAL RAMLAN NOORAZYZE
SKT Content
Yes
Youtube Link
https://youtu.be/WG4RctIs2l0
Original filename
DKM The Energy Behind Every Bowling Strike.mp4
Caption
"The Energy Behind Every Bowling Strike (Engineering Mechanics Perspective)
A bowling strike is a clear demonstration of fundamental principles in Engineering Mechanics. When the bowler lifts the ball, potential energy is stored due to its height. As the ball swings and moves forward, this potential energy converts into kinetic energy, which depends on the ball’s mass and velocity.
Once released, the ball travels down the lane with linear momentum (p = mv) and, due to the spin applied, it also exhibits angular momentum. The combination of these two forms of motion helps stabilize the ball and improve accuracy.
When the ball collides with the pins, Engineering Mechanics principles such as impulse, force, and energy transfer take place. A large momentum and a well-timed impact create a greater resultant force, causing more pins to topple. The distribution of force during the collision also illustrates Newton’s Third Law—the ball exerts a force on the pins, and the pins exert an equal and opposite force on the ball.
Thus, every bowling strike is a practical example of how energy conversion, momentum, impact forces, and Newtonian mechanics work together to achieve a powerful and efficient result."
