Aerodynamics Linear Motion (Moving Air ).

Slides:

Advertisements

Similar presentations

Angular Quantities Correspondence between linear and rotational quantities:

Advertisements

ECMWF Governing Equations 1 Slide 1 Governing Equations I by Clive Temperton (room 124) and Nils Wedi (room 128)

H6: Relativistic momentum and energy

Continuity Equation. Continuity Equation Continuity Equation Net outflow in x direction.

An observable or measurable change, but not a change in identity

MHD Concepts and Equations Handout – Walk-through.

Kinetic Molecular Theory 1.pertaining to motion. 2. caused by motion. 3. characterized by movement: Running and dancing are kinetic activities. ki ⋅ net.

AOE Aerospace and Ocean Engineering Fall 2009

AOSS 321, Winter 2009 Earth System Dynamics Lecture 10 2/10/2008 Christiane Jablonowski Eric Hetland

3.1 Matter and Energy Kinetic Theory of Matter: – All matter is made of atoms – Atoms always in motion; hotter = faster, faster = hotter – Heavier particles.

CONSERVATION OF MASS Control Volumes By: Bashir Momodu.

Fluid Mechanics –For Civil Engineers is all about SMU Storing– Moving– Using ( Incompressible fluids - water) To design and manage these systems we need.

Chapter 1. Introduction 1.1 Atmospheric Continuum –Continuous fluid medium –“mass point” = air parcel (or air particle) –Field variables: p, , T and their.

2-1 Problem Solving 1. Physics  2. Approach methods

Fluid Flow. Streamline  Motion studies the paths of objects.  Fluids motion studies many paths at once.  The path of a single atom in the fluid is.

Fluid Flow. Pressure Force  Each volume element in a fluid is subject to force due to pressure. Assume a rectangular boxAssume a rectangular box Pressure.

Module 3 Fluid Flow. Lesson 20 CONTINUITY EQUATION DESCRIBE how the density of a fluid varies with temperature. DEFINE the term buoyancy. DESCRIBE the.

Matter and Energy Glencoe Chapter 9-2: Pages

Transport phenomena in chemical processes part V Michał Araszkiewicz PhD.

Newton’s Third Law of Motion

REVISION MOMENTUM. the product of an object's mass and its velocity a vector quantity with the same direction as the velocity of the object. MOMENTUM.

Physics That branch of science that deals with matter and energy and their relationship to each other. Examples: Magnetism Electricity Electromagnetism.

Trimester 2 Science vocabulary and concepts: Heat & Energy.

Fluid Mechanics and Fluid Dynamics Fluid mechanics is the branch of physics that studies fluids (liquids, gases, and plasmas) and the forces on them. Fluid.

Energy the ability to cause change Mechanical Energy Energy of motion AND position (sum of the potential and kinetic energy of an object)

Ch5 Sec2 Convection and the Mantle. Key Concepts How is heat transferred? What causes convection currents? What causes convection currents in Earth’s.

Kinetic Molecular Theory & Gas Laws It’s all about the particles.

3.1 Matter and Energy Kinetic Theory of Matter: – All matter is made of atoms – Atoms always in motion; hotter = faster, faster = hotter – Heavier particles.

ERT 206/4 THERMODYNAMICS SEM 2 (2011/2012). light Energy can exist in numerous forms: Thermal Mechanical Kinetic Potential Electric Magnetic Chemical.

States of MatterSection 3 Pressure 〉 Fluids exert pressure evenly in all directions. –pressure: the amount of force exerted per unit area of a surface.

States of MatterSection 2 Standards 〉 SC.912.P Differentiate among the various forms of energy and recognize that they can be transformed from one.

Chapter 7: Linear Momentum Along with conservation of energy, we will now include other conserved quantities of linear and angular momentum. Linear momentum.

CHAPTER 4 TEST OUTLINE FORCES:  Describe forces  Types of forces  Balanced vs. unbalanced forces  Forces worksheet  Forces on a rocket (drag, lift,

Richard Rotunno National Center for Atmospheric Research, USA Dynamical Mesoscale Mountain Meteorology.

First step in Understanding the Nature of Fluid Flow…. P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Analysis of Simplest Flow.

INTRODUCTION TO CONVECTION

Key terms REVIEW. IN YOUR GROUPS, SEE HOW MANY TERMS YOU CAN DEFINE… MatterChemistrySubstancePhysical property Chemical propertyElementAtom Chemical bond.

1.What are fluid kinematics?  kinematic descriptions of motion describe position, velocity, and accelerations (NOT FORCE) [ physical interpretation: what.

Authored by : Dr. Harold Alden Williams Montgomery College at the Takoma Park/Silver Spring Campus, Planetarium Director and Physics and Geology Laboratory.

Energy in Motion 8SCIENCE. How is energy related to motion? Energy of matter in motion is called kinetic energy – Energy is the ability to cause a change.

A LOOK AT THE NATURE OF ENERGY Force and Motion. What is Force? A force is a push or pull. A force may give energy to an object, creating motion, stopping.

V. Fundamentals of Fluid Dynamics. Contents 1. State of Stress in Moving Fluid 2. Equations of Motion 3. Bernoulli Equation.

Kinetic Theory of Matter 1.All matter is made up of molecules and atoms that are always in motion. 2.The higher the temperature, the faster the particles.

Fluid Mechanics-I Spring 2010 Lecture # Course Outline  Introduction to Fluids and Fluid Properties  Fluid Statics  Integral Relations for fluid.

Conservation of Energy. The Law of Conservation of Energy: energy cannot be created or destroyed only transferred or transformed. The total amount of.

Physics 111 Lecture Summaries (Serway 8 th Edition): Lecture 1Chapter 1&3Measurement & Vectors Lecture 2 Chapter 2Motion in 1 Dimension (Kinematics) Lecture.

First law of thermodynamics Kishan Solanki(12me102) Patel manthan(12me132)

Convection Currents and the Mantle. The Heat of the Earth Earth’s outer core is nearly as hot as the surface of the sun.

Properties Properly $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300.

Chapter 16 Temperature and Heat.  Definition of heat: Heat is the energy transferred between objects because of a temperature difference.  Objects are.

Lecture Rigid Body Dynamics.

Special Theory of Relativity

Kinetic Theory.

INFINITESIMALLY SMALL DIFFERENTIAL CUBE IN SPACE

Linear Momentum.

Units of Measurement Why do we measure our world?.

Kinetic Theory.

Kinetic Theory of Matter

Lecture Outline Chapter 11 Physics, 4th Edition James S. Walker

Kinetic Molecular Theory

Lecture Outline Chapter 11 Physics, 4th Edition James S. Walker

Kinetic Theory.

Dynamics and Kinematics

5. Describing Flow CH EN 374: Fluid Mechanics.

Richard B. Rood (Room 2525, SRB) University of Michigan

FLUID MECHANICS - Review

Fundamental Eqs for modeling clouds

ENERGY Energy J Kinetic Energy J Elastic potential energy J Ek Ee E

Presentation transcript:

Aerodynamics Linear Motion (Moving Air )

Fundamentals of Physics

Basic Quantities Space - Length Time Matter - Mass Charge - Electro-magnetic

Derived Quantities Dimensionality Combinations of Basics Length Velocity = Mass Length Time Force = Time 2 Dimensionality Mass Length Momentum = Time Length 2 Mass Energy = Time 2 Mass Density = Length 3

Laws of Physics Observations of the Relations between Derived Quantities

Fundamentals of Aerodynamics (Fluid Dynamics)

Derived Quantities Dimensionality Used in Aerodynamics Mass Mass Length Force = Density = Length 3 Time 2 Length Length Mass Momentum = Velocity = Time Time Force Mass Pressure = = Area Length Time 2 Length 2 2 Mass Mass Length Torque = Energy = Time 2 Time 2 Mass Dimensionality Mass Flow = Time

Temperature – Basic or Derived ? Density -> mass and volume Pressure -> momentum (mass x velocity) 2 Temperature -> kinetic energy (mass x velocity )

Conservation Laws For any fluid system: Observations of the Relations between Derived Quantities For any fluid system: Mass is neither created nor destroyed. Conservation of Mass - Continuity Momentum is neither created nor destroyed. Conservation of Momentum (3 directions) Energy is neither created nor destroyed. Conservation of Energy mass mass x velocity mass 2 mass x velocity mass x velocity 2 mass x velocity

Mass Flow Rate r r r

Determine Pressure, Temperature and Density The “Static” Atmosphere 1976 Standard Day Model

Moving Through the Atmosphere (Dynamics)

Forces on an Aircraft Measured Forces Have The Same Value Aircraft Air Air Moves Past the Aircraft Aircraft Air Equivalent Aircraft Moves Through the Air Aircraft Air

Terminology for this Workshop