#Floatations

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ريلز رائجة

(12)
#Floatations Reel by @mtishtech_international - Surface tension is like a invisible skin on liquids 🔍: it's the force that makes liquids behave as if they're covered with an elastic membrane, causi
15.5K
MT
@mtishtech_international
Surface tension is like a invisible skin on liquids 🔍: it's the force that makes liquids behave as if they're covered with an elastic membrane, causing them to minimize surface area. Think water droplets beading up! 💧 #SurfaceTension #CapillaryAction #Viscosity #FluidDynamics #Physics
#Floatations Reel by @scie.ncebysumati (verified account) - 🌊 Principle of Floatation Made Easy! Have you ever wondered why huge ships float on water while a small stone sinks? 🤔 The answer lies in the Princi
931
SC
@scie.ncebysumati
🌊 Principle of Floatation Made Easy! Have you ever wondered why huge ships float on water while a small stone sinks? 🤔 The answer lies in the Principle of Floatation 🚢 ✨ Statement: A body floats in a liquid if the weight of the liquid displaced by it is equal to the weight of the body. In simple words 👉 ⚖️ When Upthrust (Buoyant Force) = Weight of the Body, the object floats! This principle is based on Archimedes’ Principle, given by the great scientist Archimedes. 🔎 Why ships float? Ships are designed to displace a large volume of water, making the buoyant force equal to their weight. 📌 Key Point for Exams: ✔ Floating condition: Weight = Upthrust ✔ If Weight > Upthrust → Object sinks ✔ If Weight < Upthrust → Object rises Save this post for quick revision 📚 Follow @Sciencebysumati for more simple science concepts explained clearly! ✨
#Floatations Reel by @novasciencex - Using just two bottles and a straw, this setup turns basic physics into something you can actually see. When water moves from one bottle to the other
75.5K
NO
@novasciencex
Using just two bottles and a straw, this setup turns basic physics into something you can actually see. When water moves from one bottle to the other, gravity pulls it downward while pressure differences push it through the straw. As water leaves one container, the pressure inside changes, and the system naturally tries to rebalance itself. The flow continues until forces on both sides even out. Once the pressure and water levels match, the motion slows and stops. That’s balance in action. This is the same logic behind rainfall, rivers, siphons, and even plumbing systems. Water doesn’t move randomly — it follows forces, seeks equilibrium, and always takes the easiest path. This content is shared strictly for educational purposes. DM us for credit/removal. (No copyright intended) #FluidDynamics #PhysicsExperiment #WaterFlow
#Floatations Reel by @insidee.out._ - When a container of water rotates, something fascinating happens to its surface. Centrifugal force pushes the liquid outward toward the edges of the
112.3K
IN
@insidee.out._
When a container of water rotates, something fascinating happens to its surface. Centrifugal force pushes the liquid outward toward the edges of the container, while gravity simultaneously pulls it downward toward the bottom. These two forces-one pushing out, one pulling down-create a constant battle for equilibrium. The result? The water's surface curves into a smooth, parabolic shape. It's not random. It's not chaotic. It's a mathematically perfect curve that emerges naturally from the physics at play. As the rotation speed increases, the outward centrifugal force becomes stronger and more dominant. The water climbs higher up the sides of the container, and the curvature becomes deeper and more pronounced. The center dips lower while the edges rise higher, creating a more dramatic hollow. What you're seeing is the same principle that governs everything from spinning galaxies to the way your washing machine works. It's fundamental rotational dynamics made visible in the simplest possible way-just water and motion. Every molecule of water is responding to these forces independently, yet together they create this perfectly smooth, predictable surface. There's no external shaping. No mold. No intervention. Just physics doing what it does, beautifully and reliably. This is also the principle behind liquid mirror telescopes, where rotating mercury creates a perfect parabolic mirror for astronomical observation-proving that sometimes the most elegant engineering solutions come from simply letting natural forces do the work. Simple physics. Real motion. No tricks. Just the universe showing off its mathematical elegance in a container of water. . . . . Dm for credit Via : @scienceboydk
#Floatations Reel by @thecurious.scientists - When a container of water rotates, something fascinating happens to its surface. Centrifugal force pushes the liquid outward toward the edges of the
63.5K
TH
@thecurious.scientists
When a container of water rotates, something fascinating happens to its surface. Centrifugal force pushes the liquid outward toward the edges of the container, while gravity simultaneously pulls it downward toward the bottom. These two forces-one pushing out, one pulling down-create a constant battle for equilibrium. The result? The water’s surface curves into a smooth, parabolic shape. It’s not random. It’s not chaotic. It’s a mathematically perfect curve that emerges naturally from the physics at play. As the rotation speed increases, the outward centrifugal force becomes stronger and more dominant. The water climbs higher up the sides of the container, and the curvature becomes deeper and more pronounced. The center dips lower while the edges rise higher, creating a more dramatic hollow. What you’re seeing is the same principle that governs everything from spinning galaxies to the way your washing machine works. It’s fundamental rotational dynamics made visible in the simplest possible way-just water and motion. Every molecule of water is responding to these forces independently, yet together they create this perfectly smooth, predictable surface. There’s no external shaping. No mold. No intervention. Just physics doing what it does, beautifully and reliably. This is also the principle behind liquid mirror telescopes, where rotating mercury creates a perfect parabolic mirror for astronomical observation-proving that sometimes the most elegant engineering solutions come from simply letting natural forces do the work. Simple physics. Real motion. No tricks. Just the universe showing off its mathematical elegance in a container of water.
#Floatations Reel by @xplain.everything - This reel showcases a phenomenon called laminar flow, a unique type of fluid motion. It happens when a liquid, like water, travels in smooth, parallel
19.0K
XP
@xplain.everything
This reel showcases a phenomenon called laminar flow, a unique type of fluid motion. It happens when a liquid, like water, travels in smooth, parallel layers with very little mixing between them. This kind of flow occurs at lower speeds, where there’s no turbulence or chaotic movement. Because the stream is so steady and organized, the water can look almost frozen — like a clear glass rod — instead of a typical splashing flow. #laminarflow #learnphysics #PhysicsInRealLife #physics
#Floatations Reel by @explain_science.io - "The hidden physics in every stream: speed, pressure, and gravity dancing together." 🌊✨ 1. Flow Types • Laminar flow: Smooth, layered movement of w
21.0K
EX
@explain_science.io
“The hidden physics in every stream: speed, pressure, and gravity dancing together.” 🌊✨ 1. Flow Types • Laminar flow: Smooth, layered movement of water. Occurs at low speeds or in narrow channels. • Turbulent flow: Chaotic, swirling motion. Happens at higher speeds or in rough channels. Key Concept: The Reynolds number predicts whether flow is laminar or turbulent: Re = \frac{\rho v L}{\mu} Where ρ = density, v = velocity, L = characteristic length, μ = viscosity. ⸻ 2. Pressure & Gravity • Water moves from high pressure to low pressure. • Gravity pulls water downhill, giving it kinetic energy. • Flow speed increases as the channel narrows (think of a river squeezing through a gorge). ⸻ 3. Conservation Laws • Continuity Equation: A_1 v_1 = A_2 v_2 • Water speed increases if cross-section decreases, conserving volume flow rate. • Bernoulli’s Principle: P + \frac{1}{2}\rho v^2 + \rho gh = \text{constant} • Describes the relationship between pressure, velocity, and height in moving fluids. ⸻ 4. Friction & Resistance • Viscosity and channel roughness slow water down. • Friction converts some kinetic energy into heat. • In pipes or rivers, this is described by the Darcy-Weisbach equation. ⸻ 5. Natural Phenomena • Water curves around obstacles due to streamlines. • Erosion and sediment transport are controlled by flow speed and turbulence. • Whirlpools, rapids, and waves all emerge from interactions between velocity, pressure, and gravity. #PhysicsInNature #FluidDynamics
#Floatations Reel by @xplainingscience - Follow @xplainingscience to learn everything about science, one post at a time 💣🧠 When the peeled orange initially sinks, it does so because its av
19.1K
XP
@xplainingscience
Follow @xplainingscience to learn everything about science, one post at a time 💣🧠 When the peeled orange initially sinks, it does so because its average density is slightly greater than that of water, meaning the downward gravitational force exceeds the upward buoyant force described by Archimedes’ principle. However, when the water is gently swirled, the system shifts from static equilibrium to dynamic fluid motion: the rotating water forms a mild vortex, redistributing pressure throughout the container. In circular motion, pressure increases outward and slightly downward, while fluid flow begins circulating beneath and around the orange. This movement reduces the stability of the orange at the bottom and introduces dynamic lift forces in addition to the normal buoyant force. Because the orange is only marginally denser than water, this small change in pressure distribution and upward flow is enough to tip the force balance, allowing it to rise smoothly to the surface. The key insight is that buoyancy in still water differs from buoyancy in moving water; once fluid motion alters pressure gradients and flow patterns, the effective forces acting on the object change, enabling it to ascend gently without splashing. #FluidDynamics #ArchimedesPrinciple #PhysicsExplained #Buoyancy
#Floatations Reel by @sciencexplains - This reel demonstrates a phenomenon known as laminar flow, which is a type of fluid motion. It occurs when a fluid (such as water) moves in smooth,
43.7K
SC
@sciencexplains
This reel demonstrates a phenomenon known as laminar flow, which is a type of fluid motion. It occurs when a fluid (such as water) moves in smooth, parallel layers, with minimal mixing between the layers. This specific type of flow happens when the fluid moves slowly and without turbulence or chaos. The water appears nearly stationary or like a solid glass rod because it is perfectly aligned and controlled, rather than turbulent. #laminarflow #learnphysics #PhysicsInRealLife #physics #sciencereels
#Floatations Reel by @explain.how_ - When a container of water rotates, something fascinating happens to its surface. Centrifugal force pushes the liquid outward toward the edges of the
37.1K
EX
@explain.how_
When a container of water rotates, something fascinating happens to its surface. Centrifugal force pushes the liquid outward toward the edges of the container, while gravity simultaneously pulls it downward toward the bottom. These two forces-one pushing out, one pulling down-create a constant battle for equilibrium. The result? The water's surface curves into a smooth, parabolic shape. It's not random. It's not chaotic. It's a mathematically perfect curve that emerges naturally from the physics at play. As the rotation speed increases, the outward centrifugal force becomes stronger and more dominant. The water climbs higher up the sides of the container, and the curvature becomes deeper and more pronounced. The center dips lower while the edges rise higher, creating a more dramatic hollow. What you're seeing is the same principle that governs everything from spinning galaxies to the way your washing machine works. It's fundamental rotational dynamics made visible in the simplest possible way-just water and motion. Every molecule of water is responding to these forces independently, yet together they create this perfectly smooth, predictable surface. There's no external shaping. No mold. No intervention. Just physics doing what it does, beautifully and reliably. This is also the principle behind liquid mirror telescopes, where rotating mercury creates a perfect parabolic mirror for astronomical observation-proving that sometimes the most elegant engineering solutions come from simply letting natural forces do the work. Simple physics. Real motion. No tricks. Just the universe showing off its mathematical elegance in a container of water. . . . . Dm for credit Via : @scienceboydk
#Floatations Reel by @the.sciencespectrum - Why do objects float? 🤔 Because of the upward buoyant force! 🌊 When a body is placed in a fluid, it experiences an upward force equal to the weight
3.0K
TH
@the.sciencespectrum
Why do objects float? 🤔 Because of the upward buoyant force! 🌊 When a body is placed in a fluid, it experiences an upward force equal to the weight of the fluid displaced. This simple principle explains floating, sinking, and even how ships stay afloat 🚢 Physics made easy. Learn smart. 📚✨ #BuoyantForce #PhysicsConcepts #NEETPhysics #Class11Physics #Class12Physics #ScienceExplained #PhysicsReels #LearnPhysics #ConceptClarity #EducationReels #StudySmart #PhysicsDaily
#Floatations Reel by @thinkbase.ai - This is what happens when a surface loses stability. A ring of actuators shakes a circular tank at high frequency. The water stops making simple rip
5.1K
TH
@thinkbase.ai
This is what happens when a surface loses stability. A ring of actuators shakes a circular tank at high frequency. The water stops making simple ripples and locks into a grid. Once the drive passes a threshold the flat state becomes unstable. The surface responds at half the driving rhythm and forms standing waves. The pattern depends on frequency amplitude viscosity and surface tension. Some see pretty symmetry others see the rules of pattern formation. What changes first when you alter viscosity or drive frequency. Tap save if you want more physics like this. 👇 If you learned something in 30 seconds, imagine what you’ll learn in 30 days. Follow @thinkbase.ai. Credit: FollowingOdd896 | Reddit

✨ دليل اكتشاف #Floatations

يستضيف انستقرام thousands of منشور تحت #Floatations، مما يخلق واحدة من أكثر النظم البصرية حيوية على المنصة.

#Floatations هو أحد أكثر الترندات تفاعلاً على انستقرام حالياً. مع أكثر من thousands of منشور في هذه الفئة، يتصدر صناع المحتوى مثل @insidee.out._, @novasciencex and @thecurious.scientists بمحتواهم الفيروسي. تصفح هذه الفيديوهات الشائعة بشكل مجهول على Pictame.

ما هو الترند في #Floatations؟ أكثر مقاطع فيديو Reels مشاهدة والمحتوى الفيروسي معروضة أعلاه.

الفئات الشعبية

📹 اتجاهات الفيديو: اكتشف أحدث Reels والفيديوهات الفيروسية

📈 استراتيجية الهاشتاق: استكشف خيارات الهاشتاق الرائجة لمحتواك

🌟 صناع المحتوى المميزون: @insidee.out._, @novasciencex, @thecurious.scientists وآخرون يقودون المجتمع

الأسئلة الشائعة حول #Floatations

مع Pictame، يمكنك تصفح جميع ريلز وفيديوهات #Floatations دون تسجيل الدخول إلى انستقرام. نشاط المشاهدة الخاص بك يبقى خاصاً تماماً - لا آثار، لا حساب مطلوب. ببساطة ابحث عن الهاشتاق وابدأ استكشاف المحتوى الرائج فوراً.

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