Using Equations of Projectile Motion
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- เผยแพร่เมื่อ 25 ส.ค. 2024
- Welcome to our comprehensive guide on the equations of projectile motion, where we delve into the fascinating world of objects in flight and equip you with the mathematical tools to accurately describe their trajectories. In this educational video, we explore the fundamental equations that govern the motion of projectiles.
Join us as we demystify projectile motion equations step-by-step. We'll begin by introducing the concept of projectile motion and its significance in physics. You'll discover how objects, launched into the air and subject only to gravity and air resistance, follow a distinct path defined by mathematical equations.
Our expert instructor will guide you through the derivation and application of key projectile motion equations, including those for vertical and horizontal motion, time of flight, maximum height, and range. You'll witness firsthand how these equations provide a precise understanding of the motion, enabling you to predict and analyze the behavior of projectiles in various scenarios.
Whether you're a student studying physics or someone fascinated by the mechanics of motion, this video is designed to make projectile motion equations accessible and engaging. By the end, you'll possess a solid understanding of the equations that describe the trajectory of projectiles, empowering you to tackle projectile motion problems with confidence.
Don't miss this opportunity to unlock the power of projectile motion equations and elevate your understanding of objects in flight. Join us now and master the mathematics behind projectiles!
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![Equations of Projectile Motion in Physics Explained - [1-4-6]](http://i.ytimg.com/vi/5TKXAi5Aiy4/mqdefault.jpg)
please keep making videos, i wish everyone can see these videos and give it some attention cuz its soooooo easy to understand and thank you
Love you sir from Pakistan! 🇵🇰❤️
Nice 👍
Love you so much, this is a lot of help
As a kid I used to have the same way of thinking that I needed to eradicate where I believed that for the sideckicked ball it will "take longer" to hit the ground, because it has a longer distance to cover and it "naturally" has to take longer. The thing is - this ball does not act up, instead it is BEING ACTED UPON. So it doesn't make any effort (in layman's terms). Plus, when it hits the ground, it keeps on rolling forward because v0 is still in effect, until friction reduces it down to 0.
Sir thank you
Thank you so much sir
wow great vidoe
A projectile trajectory is never a parabole, and it is not possible to separate x and z equations. If you are a soldier you risk to kill a lot of innocent people and may-be friends if you assume a parabolic trajectory.
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