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PHYSICS ANIMATIONS
Disc "Physics animations"    Buy BD, DVD and CD   Fiber-optic sensors   Ballistic simulator "Orbit"   Diffraction optics   Artifacts (photo)   Download demo-version   Graph On-Line   Top-10 experiments	Waves Optics Mechanics Thermodynamics Electricity
	Artifacts Orbit Graph Diffr.optics Sensors
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home - about - terms - credits - feedback Multimedia Studios 1-D Kinematics Newton's Laws Vectors and Projectiles Momentum and Collisions Work and Energy Circular, Satellite and Rotational Motion Special Relativity Static Electricity Waves, Sound and Light Ray Optics Quicktime Movies Physics Tutorial Minds on Physics The Calculator Pad Shockwave Studios The Review Session Physics Help Curriculum Corner The Laboratory The Photo Gallery ACT Test Center Reasoning Center Question Bank CD Custom Search Multimedia Physics Studio 1-Dimensional Kinematics Average vs. Instantaneous Speed Hot Wheels Track Acceleration vs. Constant Velocity Constant Rightward Velocity Constant Leftward Velocity Rightward Velocity with a Rightward Acceleration Rightward Velocity with a Leftward Acceleration Leftward Velocity with a Leftward Acceleration Leftward Velocity with a Rightward Acceleration Passing Lane - Position vs. Time Graph Passing Lane - Velocity vs. Time Graph The Stoplight Motion of a Two-Stage Rocket Back to Top Newton's Laws Newton's Law of Inertia The Car and The Wall The Motorcyclist The Truck and Ladder The Elephant and The Feather - Free Fall The Elephant and The Feather - with Air Resistance Skydiving Back to Top Vectors and Projectiles Vector Direction Vector Addition: 6 + 8 = ??? Vector Addition: The Order Does NOT Matter The Plane and The Wind The River Boat Parabolic Motion of Projectiles The Monkey and The Zookeeper Throw at the Monkey in a Gravity Free Environment Throw above the Monkey with Gravity On Throw at the Monkey at a Fast Speed with Gravity On Throw at the Monkey at a Slow Speed with Gravity On Horizontally Launched Projectiles Non-Horizontally Launched Projectiles Maximum Range The Plane and The Package The Truck and The Ball A Satellite as a Projectile Back to Top Momentum and Collisions The Astronaut Catch The Diesel Engine and Flatcar Collision The Cart and The Brick Part A - 2-kg Brick dropped on a 3-kg Cart Part B - 2-kg Brick dropped on a 1-kg Cart The Fish Catch Big Fish in Motion Catches Little Fish Little Fish in Motion is Caught by Big Fish Car-Truck Collisions (collisions between objects of unequal mass) Car "Rear-Ends" Truck - Inelastic Truck "Rear-Ends" Car - Inelastic Car "Rear-Ends" Truck - Elastic Truck "Rear-Ends" Car - Elastic Head-On Collision Between Car and Truck - Inelastic Head-On Collision Between Car and Truck - Elastic Two Dimensional Collision Between Two Cars Back to Top Work and Energy Which Path Requires the Most Energy? Energy Transformation for Downhill Skiing Energy Transformation on a Roller Coaster Energy Transformation for a Dart Energy Transformation for a Pendulum Energy Conservation on an Incline Stopping Distance of a Hot Wheels Car How Far Will It Skid? How High Will It Go? Back to Top Circular, Satellite, and Rotational Motion Uniform Circular Motion Inertia and The Right Hand Turn The Centripetal Force Requirement Roller Coaster G-Forces Orbiting Satellites Kepler's Second Law - The Law of Equal Areas Back to Top Einstein's Theory of Special Relativity Length Contraction Back to Top Static Electricity Charging a Single Sphere by Induction Using a Negatively-Charged Object Charging a Two-Sphere System by Induction Using a Negatively-Charged Object Charging an Electrophorus Plate by InductionUsing a Negatively-Charged Object Charging an Electroscope by InductionUsing a Negatively-Charged Object Grounding a Positively-Charged Electroscope Grounding a Negatively-Charged Electroscope Back to Top Waves, Sound and Light Longitudinal Pulse Tuning Forks and Longitudinal Waves Guitar Strings and Longitudinal Waves Sound Waves and the Eardrum Propagation of an Electromagnetic Waves Standing Waves on a String 1st Harmonic 2nd Harmonic 3rd Harmonic 4th Harmonic 5th Harmonic Reflection of a Pulse at a Fixed End Reflection of a Pulse at a Free End Reflection: Echo vs. Reverberation Transmission of a Pulse from a Less Dense to a More Dense Medium Standing Wave Formation on a String 2-Point Source Interference Patterns Changing Separation Distance Changing Wavelength Back to Top Ray Optics The Law of Reflection Image Formation for Plane Mirrors Ray Diagrams for Concave Mirrors Object Located Beyond the Center of Curvature Object Located at the Center of Curvature Object Located Between Center of Curvature and the Focal Point Object Located In Front of Focal Point Image Formation for Concave Mirrors Object located Beyond the Center of Curvature Object located Between Center of Curvature and the Focal Point The Broken Pencil Back to Top QuickTime Movies Vectors and Projectiles Horizontally Launched Projectile Non-Horizontally Launched Projectile Momentum and Collisions Car-Truck Collisions (collisions between objects of unequal mass) Car "Rear-Ends" Truck - Inelastic Truck "Rear-Ends" Car - Inelastic Head-On Collision Between Car and Truck - Inelastic Work and Energy Roller Coaster Back to Top Return to List of Animations   Motion with Constant Acceleration This Java applet shows a car moving with constant acceleration. The green control panel contains text fields where you can vary the values of initial position, initital velocity and acceleration (don't forget to press the "Enter" key!). By using the buttons at the top right you can bring back the car to its initial position or stop and resume the simulation. If you choose the option "Slow motion", the movement will be ten times slower. Three digital clocks indicate the time elapsed since the start. As soon as the car has reached the green respectively red light barrier with its front bumper, the corresponding clock will stop. Both light barriers are adjustable by dragging the mouse with pressed mouse button. Three diagrams illustrate the motion of the vehicle: Position x versus time t Velocity v versus time t Acceleration a versus time t     Physics Applets URL: http://www.walter-fendt.de/ph14e/acceleration.htm © Walter Fendt, November 2, 2000 Last modification: Febr Animations for Physics and Astronomy These animations are available for use under a Creative Commons License. by Dr. Michael R. Gallis Penn State Schuylkill mrg3@psu.edu  Do not try to download the entire collection, it will lock up the server. A compressed 1.2 GB snapshot of all project files can be downloaded via Physics Animation Project Snapshot . Select a category from the menu at left to browse the catalogue of animations by category. Most animations are 512 by 384 pixel avi files and are generally several megabytes long. Small screenshots are provided, and the user may view the animation in three ways: direct link to the media file, and two versions of a link to a page with the animation embeded in a web page with a brief comment on the animation. There are two methods used to embed the animation because not all work equally well with any one method. You can right-click on the media file link to save an animation to your own computer. Project Page The animations project has its very own YouTube Channel.  CWIS Portal to the Animations. The portal allows searching as well as browsing of animation topics.  A blog has been created to discuss the creation of the animations.  -=Papers and Presentations=- Artificial Video for Video Analysis, MichaelR. Gallis to be submitted to The Physics Teacher: draft paper and zipped files: 1D activities files, 2D activities files, Millikan virtual lab files (large file), all activities files, (large file). 3-D Animations for Introductory Electromagnetism, MichaelR. Gallis presented at CPS-AAPT 2005 Spring Meeting   -Presentation Elementary Animated Illustrations of Geodesics using POV-Ray , Michael R. Gallis (unpublished) Animations for Introductory Courses, Dr. Michael R. Gallis and Dr. Ping Wang presented at the 2004 ASEE Annual Conference and Exposition:   -Presentation  -Paper See also Visual Mathematics by Dr. Michael R. Gallis and Dr. Ping Wang The Animations Project is on Facebook  These works are licensed under a Creative Commons License.  Categories Astronomy Mechanics Vectors Elec & Mag Waves Optics Mod Phys Thermo Misc Student HOME HELP © 1996-2013 The Physics Classroom, All rights reserved.

physics flash animations

Physics Flash Animations 
by Don Ion (ion@sbcc.edu)

Download Page   -   Flash movies can be downloaded and played in a browser or Flash Player

Astronomy: 
Length of Earth's Day and Night (371KB)

Mechanics:
example: Atwood's Inclined Plane (18.8KB)

Projectile motion

Projectile Range

The Monkey and the Hunter

Newton’s Cannon

Kepler’s Laws

Oscilations and Waves:
Simple Harmonic Motion

The Doppler Effect

Shock Waves

Standing Waves

Heat engines: 
The 2 Stroke Engine (17.0KB)
The 4 Stroke Engine (25.4KB)
The Stirling Engine (43.0KB)
The Carnot Cycle

Optics: 
Electric field around an Oscillating Charge
Refraction

Object Image Relationships for a Convex Lens (22.8KB)

Mirror and Lens Ray Geometry

Ray Construction for Concave Mirrors

Ray Construction for Convex Lenses

Ray Construction for Concave Lenses

example: Virtual Object for a Two Convex Lens System (7.00KB)

Thin Film Interference 1
Double Slit Interference 
Phasors
Double slit phasors
Multislit phasors
Diffraction1
Quarter Wave Plate / Circular Polarization

Materials:

The Science of the Silicon Solar Cell 

Relativity:The Michelson-Morley Experiment
Simultaneity
Time Dilation
Length Contraction
Clock Synchronization
Clock Synchronization in Moving Reference Frames

9th atoms@molecules notes

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CBSE,NCERT Solution, Chemistry,Class 8th,9th 10th,10+2,Notes,Practice Paper,Solved Paper,

• 10th Chemisty Term -I
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Saturday, October 20, 2012

9th Atoms and molecules Study Notes, Q & A

NCERT Solution, MCQs, Study Notes, Q & A

Q1: Name the international organization who approves names of elements.

Ans : IUPAC (International Union of Pure and Applied Chemistry)

Q2: How do we know the presence of atoms if they do not exist independently for most of the elements?

Answer: Atom join in different way to form matter(neutral molecules or ion) that we are able to touch, feel and see.

Q3: Give an example to show Law of conservation of mass applies to physical change also.

Ans: When ice melts into water, is a physical change. Take a piece of ice in small flask, cork it and weight it (say W_ice gm). Heat the flask gently and ice (solid) slowly melts into water (liquid). Weigh the flask again (W_water gm). It is found there is no change in the weight i.e. W_ice= W_water.

                               Heat(Δ)

                        Ice  ----------➜   Water

This shows law of conservation of mass holds true for physical changes.

Q4: Explain with example that law of conservation of mass is valid for chemical reactions.

Ans: According to this law, total mass of the products (chemicals produced) is equal to the total mass of the reactants (chemicals take part in reaction). e.g. Carbon combines with Sulphur to form Carbon disulphide. The mass of reactants i.e. carbon and sulphur is same mass of products (carbon disulphide).

                 Carbon + Sulphur -----➜   Carbon DiSulphide

                   C    +   S     -----➜     C₂S  

                   1g   +  5.34g    =       6.34 g

                       LHS          =     RHS

Q5: Is there any exception to law of conservation of mass?

Ans: Later after atoms were discovered, it was found during nuclear reactions this law does not hold good. In a nuclear reaction, some of the mass gets converted into energy, as given by famous Einstein's mass-energy relationship (E = mC²). The law was rechristened as Law of conservation of mass and energy.

Q6.In a reaction, 5.3 g of sodium carbonate reacted with 6 g of ethanoic acid. The products were 2.2 g of carbon dioxide, 0.9 g water and 8.2 g of sodium ethanoate. Show that these observations are in agreement with the law of conservation of mass.

       sodium carbonate + ethanoic acid  → sodium ethanoate + carbon dioxide + water

Ans:  Mass of  sodium carbonate (Na₂CO₃) = 5.3 g  Mass of ethanoic acid (CH₃COOH) = 6g

Mass of carbon dioxide (CO₂) = 2.2g  Mass of Water (H₂O) = 0.9 g

Mass of sodium ethanoate (CH₃COONa) = 8.2 g

Total mass of reactants = 5.3g + 6g = 11.3g

Total mass of products = 2.2g + 0.9 g + 8.2g = 11.3g

Since, Total mass of reactants = Total mass of products, the observations in this reaction are in agreement with the law of conservation of mass.

Q7 If 12 g of carbon is burnt in the presence of 32 g of oxygen, how much carbon dioxide will be formed? 

Ans: Given, the reaction is carbon + oxygen → carbon dioxide

Mass of carbon = 12g       Mass of oxygen = 32g

Mass of carbon dioxide (CO₂) = xg

Since the reaction is in agreement with law of conservation of mass, then

                      Total mass of reactants = Total mass of products

i.e. 12g + 32g = x        i.e. x = 44g

∴ mass of carbon dioxide (CO₂) formed = 44g

Q.8.  A 0.24 g sample of compound of oxygen and boron was found by analysis to contain 0.096 g of boron and 0.144 g of oxygen. Calculate the percentage composition of the compound by weight.

Ans: Given, mass of boron = 0.096 g      mass of the oxygen = 0.144g

mass of the sample compound (boron+oxygen) = 0.24 g

According to Law of definite proportions, boron and oxygen are in fixed ratio in the given compound.= 0.096 : 0.0144  = 2:3

% of boron = mass of boron × 100 / mass of compound = 0.096 × 100/0.24 = 40%and % of oxygen = mass oxygen  × 100 / mass of compound = 0.144 × 100/0.24 = 60%

Q.9. When 3.0 g of carbon is burnt in 8.00 g oxygen, 11.00 g of carbon dioxide is produced. What mass of carbon dioxide will be formed when 3.00 g of carbon is burnt in 50.00 g of oxygen? Which law of chemical combination will govern your answer?

Answer: The given reaction is

                Carbon + Oxygen ➜ Carbon Dioxide

                  3g   +  8g    =   11g

⇒ Total mass of reactants = Total mass of products

∴ Law of conservation of mass is obeyed.

It also shows that carbon dioxide (CO₂) contains carbon and oxygen in fixed ratio i.e. 3:8 which follows Law of Constant proportion.

⇒ 3g of carbon (C) will react with 8g of oxygen (O) to give 11g of carbon dioxide (CO₂).

⇒ Remaining oxygen (50 -8 = 42g) will not participate in the reaction.

Q10 : Magnesium and oxygen combine in the ratio of 3 : 2 by mass to form magnesium oxide. How much oxygen is required to react completely with 12 g of magnesium?

Answer: Magnesium (Mg) and Oxygen (O) combine in the ratio = 3:2 to form compound magnesium oxide (MgO). It follows Law of Constant proportions.

⇒ 3g of Mg combines with = 2g of O.

∴ 12g of Mg combines with = 2 × 12/3 = 8g of O.

Q.11.Why are Dalton's symbol not used in chemistry?
Answer:Dalton was the first scientist to use the symbol for the name of the elements a specific sense but it was difficult to memorize and in uses so Dalton's symbol are not used in chemistry
Related post to IX(9th)  Atoms and Molecules

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