For Your Enjoyment. Composition  Main components  78% Nitrogen  21% Oxygen  1% Argon  Trace components  Carbon dio/monoxide  Krypton  Hydrogen.

Slides:

Advertisements

Similar presentations

Parker domnick hunter Industrial Gas Generation

Advertisements

Fluorescent Lamps.

UV instrumentation Abu Yousuf, PhD Associate Professor Department of Chemical Engineering & Polymer Science Shahjalal University of Science & Technology.

Science Warm-Up Look at the plastic bottle is there anything in it? How do you know? Pg 2.

Nonmetals & Metalloids. Nonmetals Nonmetals are located to the right of the stair step line on the periodic table except for hydrogen Nonmetals are usually.

Objects are invisible in the dark because no light is available to reflect off them. But some things, such as flashlights and fireflies, and the light.

CLIMATE AND WEATHER. CLIMATE AND ENERGY ► Energy from the sun warms the curved surface of Earth. The curve of the surface creates different climate zones.

Greenhouse Gases and Energy Budget LP 3 1. What are the greenhouse gases? Where do they come from? How do they work? 2.

The Air Around You Section 15:1.

Greenhouse Gases and Energy Budget LP 3 1. What are the greenhouse gases? Where do they come from? How do they work? 2.

Gases in Atmospheres Volatiles in Molecular Form (ice or gas): –Carbon dioxide CO 2 (molecular weight = 44) –Oxygen O 2 (molecular weight = 32) –Nitrogen.

Calculate partial pressure of O 2 at Sea level Nitrogen78.08% Oxygen20.95% Water Vapor0 to 4 % Argon0.93% Carbon Dioxide0.036% Neon0.0018% Helium0.0005%

Our planet is surrounded by layers of atmosphere. These layers differ in The differences within these layers allow life on earth to exist. composition.

Types of Light Emissions

Introduction to Light.

Gas Law and Gas Behavior

EXAMPLE 2.1 Mass Ratios The gas methane (CH4), the main component of the fuel natural gas, can be decomposed to give carbon (C) and hydrogen (H) in a ratio.

GHG and Carbon Pie. Atmospheric Gases Gas Symbol Content Nitrogen N % Oxygen O % Argon Ar 0.934% Carbon Dioxide CO % Neon Ne

Waves? Chapter 17 Notes.

Composition  Nitrogen (N 2 ): 78%  Oxygen (O 2 ): 21%  Other Gases: 1% Argon (Ar): 0.934% Carbon Dioxide (CO 2 ): 0.037% Water Vapor (H 2 O): 0.01.

Oxygen Nitrogen CO2 For example C02 WE proved it by putting a candle in a cup with baking soda and then we lit the candle and put vinegar in with the.

What is light?. Light Visible light is a form of energy that can be detected by cells in our eyes. Visible light is a form of energy that can be detected.

Discovering a Pattern In 1869, Russian chemist Dmitri Mendeleev arranged the elements in order of increasing atomic mass.

Technology that Produces Light 1. Incandescence – when objects are heated enough, they glow. Ex. Incandescent Light Bulbs – electricity heats up metal.

The Nature of Electromagnetic Waves

Case Studies of Important Scientific and Technological Issues Nature and Development of Science and Technology.

Greenhouse Gases and Energy Budget LP 3 1. What are greenhouse gases? Where do they come from? How do they work? 2.

Elements & the Periodic Table Non-Metals & Metalloids Chapter 3 Section 3.

Physics and the Quantum Mechanical Model

5.3. Valence Electrons Elements in a group have similar properties because they have the same number of valence electrons. A valence electron is an electron.

Nitrogen 78% Oxygen 21% Gases in Dry Air Trace Gases 1% Trace Gases Percentage by Volume Argon Carbon dioxide Neon Helium Methane Krypton Hydrogen 0.93.

Aim: How to distinguish electrons in the excited state

Lab 5 – Emission Spectra.

Colors in Nature. Dispersion of Light in a Prism Colors separate Violet has the highest ƒ (shortest λ), therefore it disperses the most because it interacts.

REPRESENTATIVE GROUPS. VALENCE ELECTRONS  electron that is in the highest occupied energy level  electrons in the last energy level  elements in a.

Chapter 14 By: Vanessa LaTorre.  Atmosphere - thin envelope/layer of gas around Earth  Gases stretch 375 miles above sea level  Composed of gases known.

The Bohr Model: Atoms with Orbits pg LO: I can explain what line spectra represent.

Elements are arranged: Vertically into Groups and Families Rows - Horizontally Into Groups / families have similar properties - such as valence electrons.

Ms. Munir SNC2D. There are many sources of light: Sun Incandescence Electric discharge.

Chapter 12 Atomsphere. Atmosphere What gas make up the atmosphere? –Nitrogen 78.08% –Oxygen20.95% –Argon0.934% –Water0.05% or less –Carbon Dioxide0.034%

The Atmosphere SWBAT explain why air has pressure; describe the composition of the atmosphere; describe how earth energy causes water on Earth to cycle.

Light Emission Chapter 30 Dispersive Element Basic Spectrograph Collimating Lens Recording Device Slit Imaging Lens.

The Noble Gases.

The basic building blocks of ordinary matter Join together to form molecules, which form most of the objects around you. Made up of protons, neutrons.

Earth’s Atmosphere Why is it so important to life on earth?

Atmospheric Pressure Science 10. Why Does Atmospheric Pressure Exist?  Because the air in the atmosphere is pulled toward the Earth by Gravity  Currently.

The Atmosphere Layers. What’s the atmosphere made of? Nitrogen % Oxygen % Argon -.934% CO % Neon % Helium % Methane.

Energy in the Earth System Big Ideas The climate system (and life on Earth ) is maintained by energy coming from the Sun (electromagnetic radiation). The.

 Complete the following slides using your notes from class and the internet.  You MUST use your own words  You should try to add images to go with.

Introduction to bonding By Joe Lutz.  All elements in nature occur in chemical combination or bonding  Only a few elements known as the Noble Gases.

The Air Around You Section 15:1.

Spectrum Tube Power Supply

Lights and Its Properties: Part Two

Spectra Analysis Lab Emission spectra of elements are the result of electron transitions within atoms and provide information about the arrangement of.

Pages 271 through 277 Mr. Monroe, October 8, 2007

Grade 10 Academic Science

Atomic Emission Spectra

MATTER Definition: Anything that contains mass and occupies space (volume.)

6a Students know visible light is a small band within a very broad electromagnetic spectrum.

Light and Electronic Transitions

Atomic Emission Spectra

Atmosphere Basics.

13.2 NOTES The Atmosphere.

10.1 What is Light?.

Composition And Origin

Elements are arranged:

Introduction to Meteorology

Presentation transcript:

For Your Enjoyment

Composition  Main components  78% Nitrogen  21% Oxygen  1% Argon  Trace components  Carbon dio/monoxide  Krypton  Hydrogen  Helium  Nitrous oxide  Neon  Methane  Ozone  Iodine  Nitrogen Dioxide  Ammonia

Gas Discharge Lamps  Common example: fluorescent lightbulbs  Electric current travels through a tube  The travelling electrons excite the electrons in the gas atoms/molecules. When the electrons move back to lower state, they emit EMR.  EMR is usually in the visible light area but sometimes UV rays are emitted.

Mercury  Mercury emits a bright light.  Light blue  RGB combine to form mostly white light.  Commonly used  Esp. with argon

Nitrogen  Similar to Argon, but duller and more pink.  Argon is violet to pale lavender blue.  Becomes bright blue- white at high peak currents.

Oxygen  Violet to lavender  Dimmer than argon

Argon  Violet to pale Lavender blue.  Often used together with mercury in lamps.

Carbon Dioxide  Bright-white  Brighter than Xenon in lower currents  Xenon is used in car headlights.  Impressive!

More Lightning

More

And More

And Even More