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Physics simulations demonstrating Pascal's Law and the hydraulic lift. My Patreon page is at 🤍
Pascal's law or the principle of transmission of fluid-pressure (also Pascal's Principle is a principle in fluid mechanics that states that a pressure change occurring anywhere in a confined incompressible fluid is transmitted throughout the fluid such that the same change occurs everywhere. The law was established by French mathematician Blaise Pascal.
This Physics video explains the Application of Pascal's Law in Hydraulics. This video is meant for students studying in class 9, 10 and 11 in CBSE/NCERT and other state boards. About us: We are a social enterprise working on a mission to make school learning interesting, relevant and affordable to every child on this planet. You can watch our FREE online videos at 🤍 and download our practice application/games - just visit 🤍 If you like our videos, subscribe to our channel 🤍 Feel free to connect with us at 🤍 OR 🤍 Have fun, while you learn. Thanks for watching Team BodhaGuru
This physics video tutorial provides a basic introduction into pascal's principle and the hydraulic lift system. It explains how to use pascal's law of pressure to solve physics problems associated with the hydraulic lift machine. It discusses how to calculate the upward output force exerted by the simple machine given an input. Pascal's principle states that the pressure exerted on a fluid is distributed undiminished to every part of the fluid. This video explains how to calculate the mechanical advantage of the hydraulic lift and how to calculate the distance that output piston will travel given the distance of the input piston. New Physics Video Playlist: 🤍 Access to Premium Videos: 🤍 🤍
Courses on Khan Academy are always 100% free. Start practicing—and saving your progress—now: 🤍 Sal explains the difference between liquids and gasses (both fluids). He then starts a calculation of the work done on a liquid in a U-shaped container. Created by Sal Khan. Watch the next lesson: 🤍 Missed the previous lesson? 🤍 Physics on Khan Academy: Physics is the study of the basic principles that govern the physical world around us. We'll start by looking at motion itself. Then, we'll learn about forces, momentum, energy, and other concepts in lots of different physical situations. To get the most out of physics, you'll need a solid understanding of algebra and a basic understanding of trigonometry. About Khan Academy: Khan Academy offers practice exercises, instructional videos, and a personalized learning dashboard that empower learners to study at their own pace in and outside of the classroom. We tackle math, science, computer programming, history, art history, economics, and more. Our math missions guide learners from kindergarten to calculus using state-of-the-art, adaptive technology that identifies strengths and learning gaps. We've also partnered with institutions like NASA, The Museum of Modern Art, The California Academy of Sciences, and MIT to offer specialized content. For free. For everyone. Forever. #YouCanLearnAnything Subscribe to Khan Academy’s Physics channel: 🤍 Subscribe to Khan Academy: 🤍
Check out us at:🤍 Pascals Law The Pascal's law states that if pressure is applied at any one point in an enclosed liquid, that pressure is equally transmitted in all directions within the liquid. This means that if pressure is applied at one point in a liquid kept in a container, all the surfaces of the liquid exert the same amount of pressure on the walls of the container. Please like our facebook page 🤍 Follow us at: 🤍
How can the water pressure created by 1 liter of water burst a 50-liter glass barrel? Watch this video to find out! This is the first time in history (as far as we know!) that this experiment was successfully done, even including Blaise Pascal himself! Part II is here! 🤍 Follow Dr. Katerina Visnjic on Clubhouse to hear and participate in fun discussion about science. Not on Clubhouse? No problem! Use this code to join: 🤍 Clarification (since a lot of people commented on this): The pressure created inside the syringe did not have any effect on the pressure in the tube/barrel, since the tube was open to the atmosphere at all times. At 3:50, you can see how I used the syringe like a funnel, just to get the water into the narrow opening of the tube. I made sure to never block the opening of the tube entirely, and the gap is visible on the right side of tube opening. This gap allowed the air in the tube to escape as the liquid entered it, and thus ensured that the pressure inside the tube remained at atmospheric pressure. For those wondering why we didn't just use a funnel - we tried that, and the liquid blocking the opening caused even more air bubbles to get caught in the tube. After some trial and error we realized that we needed to pour the water into the tube very slowly, and the best solution we came up with was to use a syringe. Subscribe or follow 🤍phys4life on twitter for updates.
in this video i give step by step procedure to derive pascal law
In this lesson we'll lecture take a brief look at the relationship between working pressure, functional area, and force known as Pascal’s Law. Additionally, we'll examine applications of Pascal’s Law including force multiplication and scenarios involving extending and retracting cylinders. Finally, we'll discuss maximum pressure limitations and how different cylinder orientations and mounting methods may influence the force, pressure, and resultant mechanical movement. (Full Lecture) Copyright information: Use this lecture. Use it at home, at work, or at school. Put it in a playlist, embed it in a website, share it with your coworkers, family, friends, and enemies. I made this lecture and posted it on YouTube so users everywhere have free access to this information. This being said, this YouTube channel is meant to be the sole point of distribution for this lecture. Users are not authorized to download it, change it, or charge for access. Don’t even think of downloading it and uploading to your own channel and pretending it’s your own work. Not cool. Use this lecture and let your friends know this free resource exists. Use it. Don't steal it. Be cool. If you wish to support this project please visit the Patreon page at: 🤍 For more FREE online technical training check out the following playlists available at the bigbadtech channel: Basic Electricity and Electronics: DC Circuit Analysis 🤍 Basic Electricity and Electronics: Single Phase AC Circuit Analysis 🤍 Basic Electricity and Electronics: 3 Phase AC Circuit Analysis 🤍 Hydraulics 🤍 Motor Control 🤍 Motors and Generators 🤍 Motor Drives/Variable Frequency Drives (VFD) 🤍 Programmable Logic Controllers (PLCs) 🤍 Additionally, check out the compiled lectures and study guides at: 🤍 🤍 🤍 🤍
In this episode of Crash Course Physics, Shini is very excited to start talking about fluids. You see, she's a fluid dynamicist and mechanical engineer, so fluids are really important to her. Actually, they're really important to anyone studying physics. So, let's start down this path of understanding, not only how fluids work, but what they are! Produced in collaboration with PBS Digital Studios: 🤍 This episode is sponsored by Audible. Try Audible: 🤍 Want to find Crash Course elsewhere on the internet? Facebook - 🤍 Twitter - 🤍 Tumblr - 🤍 Support CrashCourse on Patreon: 🤍 CC Kids: 🤍
Physics Ninja reviews Pascal's Principle and basic hydraulic systems. We solve a problem involving 2 cylinders and try to find the force required to lift a heavy object like a car. We also look the work done by the forces and the definition of the mechanical advantage for a hydraulic systems.
Pascal's law || 3D animated explanation || 11th class || Physics || Pascal's law, also known as Pascal's principle, is a fundamental principle in fluid mechanics, named after the French mathematician and physicist Blaise Pascal. The law states that in a confined fluid at rest, any change in pressure applied at any point in the fluid is transmitted undiminished throughout the fluid in all directions. This channel provides educational videos for science and technology for school board education. Animated videos for school education available in both Hindi and English. Join our membership and access all premium videos: Membership Features: 1.Exclusive videos only for members. 2.Animated series of all topics from 9th to 12th class 3.Videos are available in English and Hindi 4.Members chat room after membership. 5.Priority to comments for members Membership fee: 599/- See what you will get: 🤍 See Content for Members: 🤍
Reviews Pascal's law and demonstrates its application in the operation of a hydraulic system. We digitized and uploaded this film from the A/V Geeks Archives. Email us at footage🤍avgeeks.com if you have questions about the footage and are interested in using it in your project.
Fluid Mechanics - Pascal's Principle - Hydrostatics - Atmospheric Pressure - Lungs and Tires - Nice Demos Assignments Lecture 25, 26, 27 and 28: 🤍 Solutions Lecture 25, 26, 27 and 28: 🤍
Pascal’s Law Watch More Videos at: 🤍 Lecture By: Er. Himanshu Vasishta, Tutorials Point India Private Limited.
Need help preparing for the MCAT physics section? MedSchoolCoach expert, Ken Tao, will teach you what you need to know about Pascal's Law within Hydrostatics. Watch this video to learn how to do well on the physics section of the MCAT exam! Pascal's law says that the pressure at a point within a fluid acts in all directions. As a consequence of this, if there is a change in pressure at any point within a fluid, that pressure change is equally transmitted throughout the entire fluid. Consider a hydraulic press, which is a fluid filled container with two ends, one of which has a larger area (A1) and one of which has a smaller area (A2). If you press down on one end (A1) with a pressure P, it distributes the same pressure across the other end of the container. The equation for pressure is force over area, so whatever force is transmitted to the smaller end must be smaller than the force transmitted to the larger end. If we had a heavy object, we could set it on top of the smaller end, press down on the larger end, and generate a proportionally large upward force at the small end. As with simple machines, even though the hydraulic press will amplify the input force that we provide to a system, it will not change the amount of work performed on an object when moving it. Since work is equal to force times displacement, the distance we push the smaller end (d1) must be larger than the distance traveled by the larger end (d2). For instance, if the output force was 4 times larger than the input force, the distance traveled by fluid at the larger end would be ¼ the distance traveled by fluid at the smaller end. MEDSCHOOLCOACH To watch more MCAT video tutorials like this and have access to study scheduling, progress tracking, flashcard and question bank, download MCAT Prep by MedSchoolCoach IOS Link: 🤍 Apple Link: 🤍 #medschoolcoach #MCATprep #MCATstudytools
Hydraulic System Hindi 🤍 🤍 Hi Friends, Let's Grow up is one of the best leading youtube channels. We are helping our students to provide Youtube videos. All topic is related to the subject. We are focusing on Education, Kids Learning and Travels for entertainment, because traveling is a part of education. we achieve lots of views but not getting supporters. Please SUBSCRIBES to our channel for future videos. Watch More Videos 🤍 🤍 🤍 🤍 🤍 🤍 🤍 🤍 Today's lesson is Pascal’s law and in this video, I am trying to demonstrate the principle with the help of Example. It is very difficult to demonstrate Pascal’s law but after researching a long time I am demonstrating The Law with Graphic and Animation and also demonstrate the Hydraulic system which is based on his theory. I hope that this video will be helpful in understanding the Law and Car's Braking system. Join with Us 🤍 Thank You Let's Grow Up Team
This video explains the Pascal’s law for fluid pressure through experiment. About us: We are a social enterprise working on a mission to make school learning interesting, relevant and affordable to every child on this planet. You can watch our FREE online videos at 🤍 and download our practice application/games - just visit 🤍 If you like our videos, subscribe to our channel 🤍 Feel free to connect with us at 🤍 OR 🤍 Have fun, while you learn. Thanks for watching Team BodhaGuru
This physics video tutorial provides a nice basic overview / introduction to fluid pressure, density, buoyancy, archimedes principle, pascal's principle and bernoulli's equation. This video contains plenty of notes, equations / formulas, examples, and practice problems for you to learn from. My E-Book: 🤍 Video Playlists: 🤍 Homework Help: 🤍 Subscribe: 🤍 Support & Donations: 🤍 Youtube Membership: 🤍 Here is a list of topics: 1. Density of Fluids - Mass Per Volume - Units Kg/m^3 & g/cm^3 2. Specific Gravity Equation / Formula 3. Fluid Weight Using Density, Volume & Gravitational Acceleration 4. Light vs Heavy Gases - Helium and CO2 / Carbon Dioxide 5. Hot Air Balloon Example - Hot Air Rises & Cold Air Descends 6. Density of Seawater - Float or Sink? 7. Density of Unknown Fluid Calculations & Practice Problems 8. Density of a Mixture of Two Fluids Problem 9. Pressure, Force, & Area - Units Pascals - 1 Pa = 1N/m^2 10. Absolute Pressure vs Gauge Pressure 11. Gauge Pressure of Oil and Water - Density, Gravity & Height 12. Pascal's Principle - Hydraulic Lift Problem 13. Mechanical Advantage, Work, Input Force & Output Distance 14. Open Tube Manometer and Mercury Barometer 15. Gauge Pressure & Height of Mercury Column Given Density 16. Density of Unknown Fluid Using Mercury Barometer 17. Barometer - Oil and Water 18. Determining Pressure of Gas Given Density of Oil 19. Buoyant Force Equation Derivation 20. Atmospheric Pressure Explained 21. Buoyancy Problem - Block of Wood in Water - Net Upward Force 22. Volume of Object Above & Below Water Surface Given Density 23. Block of Wood Floating Between Oil and Water Interface Problem - Gauge Pressure, Buoyancy, Net Force, Mass and Density of the Block 24. U-shaped Tube Problem With Oil and Water - Determining the density of the oil 25. Bouyant Force, Tension, and Apparent Weight Calculations 26. Apparent Mass Formula / Equation 27. Finding the Density of the Unknown Fluid Given Apparent Mass 28. Springs, Scales, & Apparent Mass 29. Upward Bouyant Force on Balloon and Mass of Crate / Block 30. Mass Flow Rate and Volume Flow Rate Formula 31. Archimede's Principle 32. Velocity of Fluid and Cross Sectional Area of Pipe 33. Compressible vs Incompressible Fluids 34. Bernoulli's Principle - High Pressure & Low Velocity / Speed 35. Pressure, Force, Work, and Acceleration of Fluid 36. Conservation of Energy of Fluids - Kinetic Energy, Gravitational Potential Energy, Mechanical Energy, and Pressure Energy 37. Bernoulli's Equation of Continuity - Examples and Problems 38. Work and Kinetic Energy Principle 39. Speed, Area, Height, and Pressure of Fluid 40. Torricelli's Theorem - Velocity of Fluid Given Height of Water Tank 41. Lift Force of Wind on a house / roof - Force, Area, Density of Air & Velocity 42. Lift Force of Airplane Wing Calculations Disclaimer: Some of the links associated with this video may generate affiliate commissions on my behalf. As an amazon associate, I earn from qualifying purchases that you may make through such affiliate links.
Pascal's Law 🤍 Lecture By: Mr. Pradeep Kshetrapal, Tutorials Point India Private Limited
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Subject - Fluid Mechanics 1 Video Name - What is Pascal's Law Chapter - Pressure and Pressure Measurement Faculty - Prof. Zafar Shaikh Upskill and get Placements with Ekeeda Career Tracks Data Science - 🤍 Software Development Engineer - 🤍 Embedded & IoT Engineer - 🤍 Get FREE Trial for GATE 2023 Exam with Ekeeda GATE - 20000+ Lectures & Notes, strategy, updates, and notifications which will help you to crack your GATE exam. 🤍 Coupon Code - EKGATE Get Free Notes of All Engineering Subjects & Technology 🤍 Access the Complete Playlist of Fluid Mechanics 1 - 🤍 Social Links: 🤍 🤍 Happy Learning! #whatispascalslaw #fluidmechanics
Pascal's principle is defined as A change in pressure at any point in an enclosed fluid at rest is transmitted undiminished to all points in the fluid. This principle is stated mathematically as: {\displaystyle \Delta P=\rho g(\Delta h)\,} \Delta P=\rho g(\Delta h)\, {\displaystyle \Delta P} \Delta P is the hydrostatic pressure (given in pascals in the SI system), or the difference in pressure at two points within a fluid column, due to the weight of the fluid; ρ is the fluid density (in kilograms per cubic meter in the SI system); g is acceleration due to gravity (normally using the sea level acceleration due to Earth's gravity, in SI in metres per second squared); {\displaystyle \Delta h} \Delta h is the height of fluid above the point of measurement, or the difference in elevation between the two points within the fluid column (in metres in SI). The intuitive explanation of this formula is that the change in pressure between 2 elevations is due to the weight of the fluid between the elevations. A more correct interpretation, though, is that the pressure change is caused by the change of potential energy per unit volume of the liquid due to the existence of the gravitational field.[further explanation needed] Note that the variation with height does not depend on any additional pressures. Therefore, Pascal's law can be interpreted as saying that any change in pressure applied at any given point of the fluid is transmitted undiminished throughout the fluid.
𝐇𝐨𝐰 𝐚 𝐡𝐲𝐝𝐫𝐚𝐮𝐥𝐢𝐜 𝐣𝐚𝐜𝐤 𝐰𝐨𝐫𝐤𝐬 (𝟑𝐃 𝐀𝐧𝐢𝐦𝐚𝐭𝐢𝐨𝐧 | 𝐏𝐚𝐬𝐜𝐚𝐥 𝐏𝐫𝐢𝐧𝐜𝐢𝐩𝐥𝐞 ) 𝗜𝗻𝗱𝗲𝘅: - Pascal Principle - How a hydraulic jack works 𝐎𝐮𝐫 𝐅𝐁 𝐏𝐚𝐠𝐞: 🤍 𝐃𝐚𝐯𝐢𝐝'𝐬 𝐁𝐨𝐨𝐤𝐬 - 𝗪𝗲𝗶𝗿𝗱 𝗠𝗮𝘁𝗵𝘀: 𝗔𝘁 𝘁𝗵𝗲 𝗘𝗱𝗴𝗲 𝗼𝗳 𝗜𝗻𝗳𝗶𝗻𝗶𝘁𝘆 𝗮𝗻𝗱 𝗕𝗲𝘆𝗼𝗻𝗱 (🤍 - 𝗪𝗲𝗶𝗿𝗱𝗲𝗿 𝗠𝗮𝘁𝗵𝘀: 𝗔𝘁 𝘁𝗵𝗲 𝗘𝗱𝗴𝗲 𝗼𝗳 𝘁𝗵𝗲 𝗣𝗼𝘀𝘀𝗶𝗯𝗹𝗲 (🤍 - 𝗪𝗲𝗶𝗿𝗱𝗲𝘀𝘁 𝗠𝗮𝘁𝗵𝘀: 𝗔𝘁 𝘁𝗵𝗲 𝗙𝗿𝗼𝗻𝘁𝗶𝗲𝗿𝘀 𝗼𝗳 𝗥𝗲𝗮𝘀𝗼𝗻 (🤍 The kindle versions are available * For more details : 🤍 #jack #hydraulic #pascal
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Subject - Fluid Mechanics Topic - Module 2 | Pascal's Law & Hydrostatic Law (Lecture 10) Faculty - Venugopal Sharma GATE Academy Plus is an effort to initiate free online digital resources for the first time in India and particularly Mr. Umesh Dhande, Founder and Director of GATE ACADEMY creative in order to shape the best career of Engineering student approaching to B.Tech/B.E. courses. Check out our facebook page for more details. 🤍
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"""In this lecture of Chapter no 7 Physics Class 9th. We will cover the topic Applications of Pascal's Law After studying this lecture, student will be able to: • Recognize the applications of Pascal's Law • Know the working of Hydraulic Press Familiar with the working of Braking System in a Vehicle Hope you guys enjoy this lecture."
Pascal's Law The Pascal's law states that if pressure is applied at any one point in an enclosed liquid, that pressure is equally transmitted in all directions within the liquid. This means that if pressure is applied at one point in a liquid kept in a container, all the surfaces of the liquid exert the same amount of pressure on the walls of the container. Pascal's Law Formula: ΔP = ρgΔh Hydraulic Brake System Hydraulic types of brakes are very efficient and long lasting, as a fluid is used to transmit the pressure applied on the brakes to the wheels, and the elasticity of fluids doesn't get lost over time, thus these brakes are better than the common breaks used in vehicles. Check us out at 🤍 Follow us at: 🤍 🤍
SSC JE 2023 (1 YEAR VALDITY) 🤍 SSC JE 2023 (2 YEAR VALDITY) 🤍 JE की तयारी के लिए App Download करें 🤍 For any query Whats app on 9041749429 Strength of material Full Syllabus 🤍 Fluid Mechanics Full Syllabus 🤍 Theory of machine Full Syllabus 🤍 Thermodynamics Full Syllabus 🤍 Combo Pack 4 in 1 🤍 Fluid Mechanics Full syllabus 🤍 Try this free mock test 🤍 I have explained pascal's law in this video with the help of some examples for more videos open my play list For all my videos links click here 🤍 For MCQ or mock test click here 🤍 Flywheels resist changes in rotational speed by their moment of inertia and in order to change a flywheel's stored energy (without changing its mass) its rotational speed must be increased or decreased. ... Common uses of a flywheel include: Smoothing the power output of an energy source What is Pascal law formula? Pascal's law states that a pressure applied to a fluid in a closed container is transmitted equally to every point of the fluid and the walls of the container, as seen in Equation 2. P = F / A (Equation 2) Where P is the pressure, F is the force, and A is the area What is Pascal's law in simple terms? Pascal's principle, also called Pascal's law, in fluid (gas or liquid) mechanics, statement that, in a fluid at rest in a closed container, a pressure change in one part is transmitted without loss to every portion of the fluid and to the walls of the container. What is Pascal law and its application? Applications of Pascal's Law This is the principle of working of hydraulic lift. It works based on the principle of equal pressure transmission throughout a fluid (Pascal's Law). ... Few more applications include a hydraulic jack and hydraulic press and forced amplification is used in the braking system of most cars. Why is Pascals law important? Pascal's law states that a change in pressure at any point in an enclosed fluid is transmitted equally throughout the fluid. The ability of fluids to transmit pressure in this way can be very useful—from getting toothpaste out of a tube to applying the brakes on a car. How do you prove Pascal's law? Since the liquid is in equilibrium, therefore, the sum of forces acting on the curved surface of the cylinder must be zero. If P1 and P2 are the pressure at points C and D and F1 and F2 are the forces acting on the flat faces of the cylinder due to liquid, Experimental Proof What is Pascal's law for kids? Pascal's law (also known as Pascal's principle) is the statement that in a fluid at rest in a closed container, a pressure change in one part is transmitted without loss to every portion of the fluid and to the walls of the container. Does Pascal's law apply to air? A typical application of Pascal's principle for gases and liquids is the automobile lift seen in many service stations (the hydraulic jack). Increased air pressure produced by an air compressor is transmitted through the air to the surface of oil in an underground reservoir. What are the uses of Pascal law? Pascal law states Pressure applied at any point of a liquid enclosed in a container is transmitted without loss to all other parts of the liquid. Hydraulic press, Hydraulic jack system, brake system are few applications of Pascal law working of hydraulic press working of hydraulic brake hydraulic press working how hydraulic brake works how hydraulic press works #GearInstitute #PascalLaw #FluidMechanics pascal law with example pascal law statement pascal law ncert pascal law in hindi pascal law formula pascal law derivation pascal law application pascal's principle formula Pascal's Law(हिन्दी ) Pascal Law with derivation in Hindi (Fluid Mechanics) Pressure and Pascal's principle (Hindi) पास्कल का सिद्धांत, आपेक्षिक घनत्व – How Hydraulics Work – in Hindi Pascal law in hindi | Pascal law full explanation Pascal's Law || in Hindi for class 11
Hi, I created this animation to give you a very easy, clear and logical understanding of playing with Pressure, Force and Area. Pressure is the same inside a closed liquid but if you use a large area, you can get a large force, which is big enough to lift a car. This is the physics principle of a Hydraulic Jack. If you visit a local mechanic, you can see how a thin looking mechanic lifts a whole car. This understanding leads to Bernoulli's equation. Please login to 🤍 for access to a whole big library of chapters and explanations. Have a great day. best regards kaustubhan
In this Physics video in Hindi we explained the Pascal's law for class 11. Pascal's Law or Pascal's Principle states that a pressure change at any point in a confined incompressible fluid is transmitted throughout the fluid such that the same change occurs everywhere. We explained this law using the concept of the working of hydraulic lift. 🔴 Click here to watch the whole playlist on 'Mechanical Properties of Fluids' for Class 11 : 🤍
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Pascal's principle is defined as A change in pressure at any point in an enclosed fluid at rest is transmitted undiminished to all points in the fluid. This principle is stated mathematically as: {\displaystyle \Delta P=\rho g(\Delta h)\,} \Delta P=\rho g(\Delta h)\, {\displaystyle \Delta P} \Delta P is the hydrostatic pressure (given in pascals in the SI system), or the difference in pressure at two points within a fluid column, due to the weight of the fluid; ρ is the fluid density (in kilograms per cubic meter in the SI system); g is acceleration due to gravity (normally using the sea level acceleration due to Earth's gravity, in meters per second squared); {\displaystyle \Delta h} \Delta h is the height of fluid above the point of measurement, or the difference in elevation between the two points within the fluid column (in meters). The intuitive explanation of this formula is that the change in pressure between two elevations is due to the weight of the fluid between the elevations. Alternatively, the result can be interpreted as a pressure change caused by the change of potential energy per unit volume of the liquid due to the existence of the gravitational field.[further explanation needed] Note that the variation with height does not depend on any additional pressures. Therefore, Pascal's law can be interpreted as saying that any change in pressure applied at any given point of the fluid is transmitted undiminished throughout the fluid. #vamsi_bhavanitutorials Jai hind!!!
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