Kategóriák: Minden - charges - ecology - circuit - electricity

a Tran Brandon 2 éve

190

SNC1D0 Year

The text encompasses fundamental concepts in electricity and ecology. In the realm of electricity, it covers both static and current electricity, explaining various components and tools such as circuit breakers, ammeters, ohm meters, and voltmeters.

SNC1D0 Year

SNC1D0 Year

Ecology

Energy Flow
Biogeochemical
Laws of Thermodynamics

Law of Conservation of Energy

Energy in the universe is constant and cannot be destroyed nor created and can only be transferred

Kinetic Energy

Actions

Chemical Energy

Cellular Respiration

Creates Co2, Water, Energy using Oxygen and Sugar

Light Energy

Photosynthesis

Creates Sugar, Food

Thermal Energy
Trophic Levels
Consumer
Food Web
Food Chain
Spheres of the Earth
Atmosphere
Hydrosphere
Lithosphere
Biosphere
Living Organisms
Decomposers/Detritivore
Predator
Prey
Heterotroph
Producer/Autotroph
Omnivore
Carnivore
Herbivore
Niche

Role of an organism in the environment

Communities
Population
Species
Environment
Nitrogen Cycle
Water Cycle
Carbon Cycle
Habitat
Biome
Ecosystem
Climate Change
Biotic Factors
Abiotic Factors

Electricity

Current Electricity
Electricity in Real Life Use

Formulas

Forumla for the Cost to Operate a Electrical System is: Cost = energy x Price (rate)

Formula for the Relationship between Power and Electrical Energy

Circuit Breakers

Circuit

Motor

Voltmeter

Measures Voltage

Ammeter

Measures Amps/Current

Ohm Meter

Measure Ohm/Resistance

Resisitor

Used to reduce current or control voltage

Switch/Control

Electric Load

Source

Electric Currents
Static Electricity
Charges

Electrostatic Series

Charge by Induction

Charge by Contact

Charge by Friction

Discharge

The Action of Removing a Charge

Grounding

Connecting a Charged Object to the Ground (The Earth is a Large Conductor that Spreads the Electrons

Conductors

Materials that Allow the Flow of Electrons from Atom to Atom

Insulators

Materials that Prevent the Movement of Electrons

Laws of Charges

Neutral Objects are Neutral to Each Other

Neutral Objects Attracts All Charges

Like Charges Repel Each Other

Opposites Charges Attract Each Other

Electrons

Can Move

Neutrons

Protons

Cannot Move

Chemistry

Atoms
Molecular Compounds

Naming Molecular Compounds

Chart to show the relationship between # of atoms and the prefixes

Always replace the ending of the 2nd symbol with -ide

Never add the prefix "mono-" to the first symbol

Since the nearly have full orbits, they share each others electrons that results in a Covalent Bond

A pure substance formed by mixing 2 or more non-metals

Metals that formed by metaling 2 metals together

Counting atoms

If there is a coefficient in front of everything, it represents the amount of that element/compound

The coefficient is multiplied with all subscripts within the formula

The subscripts of a atom represents the amount of the atom there is.

Subscripts outside brackets multiply all subscripts within the brackets before it

Ex: Cl 2 = 2 Chlorine atoms

Ions

Ionic Compounds

Steps to making the formula

The first symbol is always the metal followed up by the non-metal

Write the ionic charge above and to the right of the symbol it is attached to

Criss cross the charge

Divide the charges to to largest common factor to find the lowest ratio

Ionic Charge are the charges that are gained or lost to other elements

Created when a metal and non-metal combine

Non-metals always gain electrons

Metal atoms always lose electrons

All atoms want a full outershell to gain stability (2 or 8)

Atoms lose or gain more electrons depending to how close they are at the moment to the next full shell

Atoms that lose electrons have a negative charge and are called cations

Atoms that gain electrons have a negative charge and are called anions

Called Stable Octet

Reason why group 1, which only has 1 valence electron, are the most reactive

The Diagrams

Lewis Dot Diagram

The dots surrounding the letter(s) are the valence electrons

A shortcut to finding the valence electrons is looking at the groups the element is in

Starting at 1 electron at group 1, keep increasing by 1 until you reach group 2, where it skips all to way to 3 electrons at group 13. Continue the pattern of 1 electron every group afterwards.

Dots are placed singly then placed in pairs in the order: N -> S -> E -> W

Only the electrons on the furthest shell from the middle are represented

The Letter(s) in the middle are the elements/compounds symbol

Bohr Rutherford Diagram

Labels

Circles around the middle circle represent the shells

Circle in the middle represents the nucleus

The n represents the neutrons in the atom

The p represents the protons in the atom

Dots represent the valence electrons

Valence electrons are electrons on the shell

Relationship between # of electrons every shell

Structure

Nucleus

1% of the Atoms Volume

99% of the Atoms Mass

Contains the Protons and Neutrons

Neutron

Have Mass

Neutral Charge

Electron

Negative Charge

Have almost no mass

Orbiting the Nucleus

Lies on the "shell"

Shell contains 1% of the Atoms Mass

Shell contains 99% of the Atoms Volume

Proton

Positive Charge

Has mass

Periodic Table

Atomic Mass

Represents the sum of Protons and Neutrons of the Element

Atomic Number

Represents the amount of Protons or Electrons

Standard Atomic Notation

Chemical Symbols

First letter is always a captial

Abbreviations of Elements Name

Columns/Families

Elements get more reactive the more you go down the columns

Noble Gasses

Group 18

Halogens

Group 17

Transition Metals

Group 3-12

Alkaline Earth Metal

Group 2

Alkali Metals

Group 1

Hydrogen

Rows/Periods

Matter
Density

Formula

Amount of matter per unit of volume

Measured in g/mL or g/cm^3

Volume

Amount of space an object takes up

Mass

Amount of matter an object takes up

Physical and Chemical Changes

Chemical Changes

A change that results in a formation of a new substance

Physical Change

The change in shape, form or state in a substance

Properties of Matter

Chemical

Describes the ability for a substance to change into another substance

Physical

Description of the substance

Mixtures

Alloys

Heteogenous

Mixture where you can see the different components

Homogenous

Mixture where the form is uniformed

Pure Substances

Only made up of 1 kind of particle

Compounds

Made up of 2 or more different elements in fixed proportions

Elements

Composed up of only 1 kind of atom

States of Matter

Changes in the State of Matter

Deposition

Gas to Solid

Sublimation

Solid to Gas

Condensation

Gas to Liquid

Evaporation

Liquid to Gas

Freezing

Liquid to Solid

Melting

Solid to Liquid

Plasma

Gas

Particles are very far apart from each other

Liquid

Particles are seperated and far from each other

Solid

Particles are close togther

Particle Theory

Particles are attracted to each other

Particles are always moving

Temperature affects the speed that particles move at

There is always space between particles

Different Substances are made up of Different Particles