Caution
一定要睇曬成條題目 唔係後果自負
- Draws the valance electrons only
- The dots are the electrons
- The lines are the bonds (2 electrons)
- How to draw: ![[snc2d-lewis]]
- Molecule: 2+ same or different atoms chemically bonded
- Compound: 2+ different atoms chemically bonded
- Mixture: 2+ molecule not chemically bonded
- Hydrogen
- Oxygen
- Fluorine
- Bromine
- Iodine
- Nitrogen
- Chlorine
- Add prefix to all chemicals
- 1: Mono
- 2: Di
- 3: Tri
- 4: Tetra
- 5: Penta
- 6: Hexa
- Less valance electron goes first
- Do not add "Mono" to the first element
- Add "-ide" to the last element only
- $\text{X}^{+a}Y^{-b}=\text{X}{b}\text{Y}{a};(a;\text{and};b;\text{is factorized})$
- $\text{X}{b}Y{a}=\text{X};(\text{roman: }a);\text{Y-ide};\text{(for transition metal only)}$
- Make sure to balance the charges
- The
$\text{roman};a$ is the charge of$\text{X}$
- Assuming
$\text{Y}$ is a polyatomic ion
- $\text{X}^{+a}\text{Y}^{-b}=\text{X}{b}\text{(Y)}{a};(a;\text{and};b;\text{is factorized})$
- $\text{X}{b}\text{Y}{a}=\text{X};(\text{roman: }a);\text{Y};\text{(for transition metal only)}$
- Make sure to balance the charges
- The
$\text{roman};a$ is the charge of$\text{X}$
Structure: Reactant + Reactant -> Product
- Write the reactants and products in chemical symbols
- If have heat, put "heat" above the arrow
- State (only if the question stated)
- Put in brackets after the chemical symbol
- s: solid
- l: liquid
- g: gas
- aq: aqueous
- Conservation of mass: Mass will not be loss during a chemical equation
- Write the reactant and product chemical amount
- Make sure the polyatomic ions are not separated
- Use multiplications and cross-multiply to mix and match
- Count the whole table
- Rejoin the chemical equation
- Write the reactants and products in chemical name (remember the rules)
- If have heat, put "heat" above the arrow
- Put (State)(Name) if the question stated
- Water pulls a ion out from the compound
- Surround the ion with water
- The ion cannot go back to the compound
- Creates conductive water
Synthesis
$\text{A}+\text{B}=\text{AB}$ - Combined to form larger compound Decomposition
$\text{AB}=\text{A}+\text{B}$ - Break to form smaller compound Combustion (exothermic reaction)
- Complete: $\text{Fuel}+\text{O}{2}=\text{CO}{2}+\text{H}_{2}\text{O}$
- Incomplete: $\text{Fuel}+\text{O}{2}=\text{CO}{2}+\text{H}_{2}\text{O}+\text{CO}$ Neutralization
- $\text{H}{a}\text{X}{b};\text{(acid)}+\text{Y}{c}\text{(OH)}{d};\text{(base)}=\text{Salt}+\text{H}_{2}\text{O}$
- Make the pH 7 (neutral)
- Balance the hydroxide and hydrogen bond
- Application: Chemical spill, medicine, agriculture
- Spills: Strong + Weak (avoid huge reaction) Single displacement
-
$\text{A}$ metal:$\text{A}+\text{CD}=\text{AD}+\text{C}$ -
$\text{A}$ non-metal:$\text{AB}+\text{D}=\text{AD}+\text{B}$ - Double displacement but one of the non-metal is gone Double displacement
$\text{AB}+\text{CD}=\text{AD}+\text{CB}$ - swap
$\text{B}$ with$\text{D}$
- Taste sour
- Corrosive
- React with metal
- Aqueous acid conduct electricity
- A solution (water)'s molecule will collide with the acid
- Hydrogen ions are detached from the acid
- Taste bitter
- Corrosive
- Not reactive with metal
- Aqueous base conduct electricity
- Slippery
- The strongness of their characteristic
- pH color
- Strong acids completely ionize (disassociate) in water (hydrogen ions). No acid left.
- Strong base completely ionize (disassociate) in water (hydroxide ions). No base left.
- Strong acid: Industrial use
- Weak acid: Food industry
- Strong acid: Strong cleaning
- Weak acid: Daily cleaning
- Hydrogen + Element
- Word: Hydro- + Element + ic + acid
- Chem:
$\text{H}_{a}\text{X}$
- Hydrogen + Polyatomic ion containing Oxygen
- Word (look at the original ion for 'r')
- End in "-ite": polyatomic + -(r)ous + acid
- End in "-ate": polyatomic + -(r)ic + acid
- Chem:
$\text{H}_{a}\text{X}$
- Word (Polyatomic Ion or Ion) + Hydroxide
- Chem:
$\text{(X)}_{a}\text{OH}$
- Acid: Red
- Neutral: White
- Base: Blue
- Acid: Red
- Neutral: Green
- Base: Purple
- Cause: Air pollution + water in atmosphere
- Change acidity of soil (effect the ecosystem)
- pH = 4, all fish die at pH 4
- Basic unit of life
- Self replicating
- Bounded by membrane
- May contain organelle
- Contain biological molecule (DNA, protein, sugar)
- All living things are made of one or more cells
- Cells are the functional unit of life
- All cells come from pre-existing cells
- Prokaryotic cell
- Simple
- No nucleus
- No organelles
- May have tail or fur
- E.g. Bacteria
- Eukaryote cell
- Complex
- Have nucleus
- Have organelles
- No tail or fur
- E.g. Animal cell, Plant cell, Fungi
Flagellum: Tail with motor, for moving
- Little "organs" of cells
- Bounded by membrane
- Specific functions: DNA replication, cell division, waste excretion
- Only in [[#Plant cell]] and Bacteria
- Protect and form regular shape
- Made from cellulose
- Protective layer
- Selectively permeable
- In: Food, Oxygen, Water
- Out: Waste
- Fill the cell
- Hold the Organelles
- Constantly flowing gelatin
- Scaffolding between Cytoplasm
- Maintain cell shape
- Made of protein
- Direct cell activity
- Contains DNA (Deoxyribonucleic acid)
- Protective layer
- Selectively permeable
- Fill the nucleus
- Store DNA or [[#Chromosome]]
- Produce protein and RNA
- Attach to Endoplasmic Reticulum
- Bean bag wrapping curvy membrane with liquid
- Brake sugar -> energy (Cellular respiration)
- Tubes with balls hanging around
- Package, Modify, and Sort substance
- Sac with liquid
- Store Food, Water, Waste
- Plant: Big
- Animal: Small
- Rare plant
- Small round membrane ball
- Digestion: Break large substance to small
- Protection: Attack foreigners
- Plant cell only
- Bean with coin stack
- Contain chlorophyll
- Photosynthesis machine
- Animal cell only
- Cylindrical building
- Produce [[#Spindle fibers]]
- Used for mitosis pulling
- Made of protein
- Produced by [[#Centrioles]]
![[snc2d-plantcell]]
![[snc2d-animalcell]]
Cell cycle: A series of event where the cell grows, reproduces, and dies
- Mitosis:
- 2 daughter cells is identical to the parent cell
- Occur in somatic (non-reproductive body cells)
- Meiosis: 2 different cell make a new cell
- Grow: Mitosis
- Repair: Mitosis
- Reproduce
- Asexual: Mitosis
- Sexual: Meiosis
![[20241005115434.excalidraw]]
- G1: [[#Organelles]] duplicate, Normal life functions
- S (synthesis): [[#DNA]] replication
- G2: Continue growth, Normal life functions
$90%=20%+50%+20%$ - Not in Mitosis
- [[#DNA]] condense: [[#Chromatin]] form [[#Chromatids]] form [[#Chromosome]]
- [[#Centrioles]] move to 2 opposite end
- [[#Centrioles]] make [[#Spindle fibers]]
- [[#Nuclear membrane]] dissolve
- [[#Chromosome]] line up in the equator
- [[#Spindle fibers]] attach to [[#Centromere]]
- Each [[#Centrioles]] is at the 2 opposite end
- [[#Spindle fibers]] pulls apart at [[#Centromere]]
- [[#Chromosome]] becomes [[#Chromatids]]
- [[#Chromatids]] decondense to [[#Chromatin]]
- New [[#Nuclear membrane]] group the 2 [[#Chromatin]] partition
- Cells begin to split [[#Nucleus]] and [[#Organelles]]
- Animal: Contractile ring -> Cleavage furrow -> [[#Cytokinesis]]
- Plant: Vesicles formation -> Fuse to cell wall -> [[#Cytokinesis]]
- Complete cell splitting
- Each daughter cell is identical to parent cell
- Not in Mitosis
- G1 and S: Organelle duplication
- G2 and M: DNA replication
- M: Spindle fibers
- DNA broken (2 adjacent strand bond together)
- Cause: UV light, Toxins, Carcinogen
- Gene Mutation = Bad protein = Mutated cell
- Macrophages: Checkpoints G2 and M can catch it
- Group of Mutated cell = [[#Tumor]]
- Tumor Suppressing Protein: p53
- Oncoprotein: E6 and E7
- Healthy cells
- Tumor Suppressing Protein: Working
- Proto-oncoprotein: Mostly off
- Cancer cells
- Tumor Suppressing Protein: Broken
- Oncoprotein: Always on
- A mass of cells that has not functions
- Bengin: No harm, crowding the surrounding
- Malignant Tumor ([[#Cancer cells]]): Harmful, Interfere surrounding function
- Metastasis: Cancer cells establish secondary tumor via bloodstream
- It was fun: Our slides
- Mutated DNA + Broken substance + Harmful
- Identity: Irregular shaped, Very big multi-nuclei
- Irregular shape
- Endoscope: Fiber optic cable see narrow passage
- X-Ray: Electromagnetic radiation beam see through (not bones)
- Computerized Axial Tomography (CT): Multi-X-Ray scan
- Ultrasound: High frequency sound waves reflect soft tissues
- Magnetic Resonance Imaging: 3D image by strong magnetic field
- Self-examination
- Doctor tests and examinations
- Surgery: Remove cancer cells
- Chemotherapy: Slow down growth with drugs
- Radiation: Ionizing radiation kill cancer cells
- mRNA: Make protein that attack tumors
- Biophotonics: Lazer light beam to detect cancer and treat
- Human Papillomavirus
- Transmitted sexually
- Virus cause warts, no symptom, or [[#HPV-related Cancer]]
- 35% in Cervix (Narrow neck)
- 35% in Mouth and Throat
- 4% in Penile (male)
- Major cause: Weak immune system, infertility, obesity
- Cancer test: Cervical sampling (takes cell sample)
- Infect Epithelium cells, glandular cells
- Takes 10 - 30 years to develop
- HPV insert DNA into the nucleus which produce Oncoproteins E6 and E7
- E6 and E7 disrupts proofreading process of the cell
- E6 and E7 promotes tumor and malfunction (Mutation)
- Accumulation of mutation causes Cancer
$\text{Total}=\text{Ocular}\times \text{Objective}$ - Ocular lens: 10x
- Objective lens
- Low: 4x
- Medium: 10x
- High: 40x
- Amount
- 2 cells
- Tool
- Pencil
- Ruler
- Label line
- No arrows
- Straight
- Untangled
- Touch object
- Right side
- Visible organelles
- Title
- Cell type
- Total magnification
![[20241021165018.excalidraw]]
-
Structure
- Dimple in the middle holds
$\text{O}_{2}$ - Hemoglobin picks up
$\text{O}_{2}$ - No nucleus
- Dimple in the middle holds
-
Function
- Carries
$\text{O}_{2}$ from lungs to body parts - Carries
$\text{CO}_{2}$ from body to lungs
- Carries
![[Drawing 2024-10-21 16.56.47.excalidraw]]
- Structure
- Changes it's shape to eat the intruder
- Made from bone marrow
- In the bloodstream
- Function
- Part of the Immune System
- Protect our bodies from Sickness and Pathogens
- Virus, Bacteria, Allergies, Cancer
![[Drawing 2024-10-21 17.07.18.excalidraw]]
- Structure
- Cytoplasm contains Yolk (Nutrition) for Embryo
- Carries mother's DNA
- Function
- Grow a human baby
![[Drawing 2024-10-21 17.11.29.excalidraw]]
- Structure
- Long tail to swim
- Scissor enzymes to get into Egg
- Carries father's DNA
- Function
- Complete the mother's genetic information
![[Drawing 2024-10-21 17.14.38.excalidraw]]
- Structure
- Muscle fiber strands arranged in bundles
- Looks like large cables
- Function
- Contract to make bones move
- Move your bones and organs around
![[Drawing 2024-10-21 17.18.36.excalidraw]]
- Structure
- Layers of flattened cells
- Fit tightly
- Function
- Protect cells in the body
- Reduce water loss
![[Drawing 2024-10-21 17.22.41.excalidraw]]
- Structure
- Large Vacuoles store fat
- Small Nucleus at the top
- Function
- Heat insulation
- Body cushioning
![[Drawing 2024-10-21 17.27.37.excalidraw]]
- Structure
- Compact cells located on the surface
- Spider web like cell in the middle bone
- Function
- Support body organs
- Osteoblasts: Build bones by Calcium
- Osteoclasts: Break bones --> reabsorb Calcium to repair
![[Drawing 2024-10-21 17.44.39.excalidraw]]
- Structure
- Very long cells
- Branches to communicate with other nerve cells
- The bulbs are fat to insulate and increase rate of information
- Function
- Carry nerve impulses
![[Drawing 2024-10-21 17.52.35.excalidraw]]
- Structure
- Line in lung
- Cilia: Tiny hair
- Function
- Prevent lung damage
- Cilia grip and trap dust and bacteria
![[Drawing 2024-10-21 17.58.41.excalidraw]]
- Structure
- Large surface area from roots
- Large vacuole for storing water
- No chloroplast
- Function
- Absorb water and minerals from soil
- Pass water and minerals to the plant
- Cell
- Tissue
- Organ
- Organ System
- Organism
- Sheets of tightly packed cells
- Layers
- One: Simple epithelium
- Multi: Stratified epithelium
- Regular cell shape
- Cuboidal
- Squamous
- Columnar
- Support and Protection
- Example: Bone, Cartilage
- Contracting only, move bones
- Types
- Skeletal: Contract to move bones
- Smooth: Digestive involuntary
- Cardiac: Involuntary endurance for heart
- Communicate with electrical signals
- Have webs that connect to other cells
![[Drawing 2024-10-31 21.24.27.excalidraw]]
![[Drawing 2024-10-31 21.28.11.excalidraw]]
![[Drawing 2024-10-31 21.35.44.excalidraw]]
![[Drawing 2024-10-31 21.44.27.excalidraw]]
![[Drawing 2024-11-01 09.25.06.excalidraw]]
- [[#Electromagnetic Wave]]
$=$ Energy - Energy transmitted through [[#Radiation]] ([[#Medium]] is NOT required)
-
$C=3\times 10^8;\text{ms}^{-1}$ (Significantly faster than sound)
- Physical carrier for transmitting energy
- Small part of the [[#Electromagnetic Spectrum]]
- Detectable by the human eye
- Energy transmission that does not require a [[#Medium]]
- A Wave: Electric
$+$ Magnetic -
$\uparrow$ Frequency$=$ $\downarrow$ Wave Length -
$\uparrow$ Amplitude$=$ $\uparrow$ Energy - [[#Light]] ![[Drawing 2024-11-11 14.00.58.excalidraw]]
![[snc2d-]]
- Astronomy: Analyze data about the universe
| Waves | Examples |
|---|---|
| Radio | Phone, Radar |
| Microwave | Microwaves |
| Infrared | Remote, Heat detection |
| Visible | Screen, Lighting |
| Ultraviolet | Disinfection |
| X-Ray | Medical scan, Security scan |
| Gamma Ray | Cancer treatment |
- ROY G BIV
- Red (
$\uparrow$ wavelength,$\downarrow$ frequency) - Orange
- Yellow
- Green
- Blue
- Indigo
- Violet (
$\downarrow$ wavelength,$\uparrow$ frequency)
- Produce light
- Reflect light
- Heating a metal filament using Electricity
- High temperature metal glow
- Very Inefficient:
$5%$ Light energy
- Pass Electricity through Gas
- Example: Noble Gas
$+$ Electricity$=$ Light (Electrons hanging around)
- Absorb UV, Instant visible light release
- Example: Fluorescene Light Bulb
- Mercury Vapour
$+$ Electricity$=$ UV Light - UV Light
$+$ Fluorescent$=$ Visible Light
- Mercury Vapour
- Absorb UV, Slow visible light release
- Example: The glowing clocks
- Chemical Reaction
- Minimal heat release
- Example: Glow stick, Luminol (React with iron in blood)
- Chemical Reaction
- Living Organism
- Minimal heat release
- Examples
- Fireflies: Luciferin
$+$ Oxygen$+$ Luciferase (enzyme)$\to$ Photons (Light)$+$ Inactive Oxyluciferin (Oxidized) - Angular fish: A sack of glowing bacteria
- Jelly fish: Enzymes like fireflies
- Fireflies: Luciferin
- Friction
- Crush, Scratch, Ripped, Rubbed
- Example: Quartz crystal, Diamond
- Semiconductor
$+$ Electricity - Small heat release
- Very efficient
- Light traveling in a straight line without obstacles
- Indicated with straight lines and one arrow
- Use light rays to determine how light behaves when it strikes an object
- Bouncing back of light from a surface
![[20241113195843.excalidraw]]
-
$\theta_{i}=\theta_{r}$ , Angle of Incident$=$ Angle of Reflection - Incident Ray, Reflected Ray and Normal lies of the same plane
- Smooth surface
- Regular reflection ![[20241113200759.excalidraw]]
- Irregular surface
- Irregular reflection, Scattered reflected rays ![[20241113201428.excalidraw]]
![[20241123144928.excalidraw]]
- Size: Same
- Altit: Laterally Inverted
- Loc: Behind mirror
- Typ: Virtual
![[20241123150221.excalidraw]]
- Principal Axis (
$\text{PA}$ ): Through$\text{C}$ , like the radius of the circle - Center of curvature (
$\text{C}$ ): The center of the curving side - Focus (
$\text{F}$ ): All parallel to$\text{PA}$ rays converge to$\text{F}$ - Vertex (
$\text{V}$ ): The end of$\text{PA}$ - Converging
- Going through
$\text{C}$ : Rebouce - Going through
$\text{V}$ : Same angle - Going through
$\text{F}$ : Make parallel
![[20241123151958.excalidraw]]
- Size: Smaller
- Altit: Laterally Inverted
- Loc: | FC |
- Typ: Real
![[20241123151741.excalidraw]]
- Size: Same
- Altit: Laterally Inverted
- Loc: @C
- Typ: Real
![[20241123162410.excalidraw]]
- Size: Bigger
- Altit: Laterally Inverted
- Loc: >C
- Typ: Real
![[20241123162818.excalidraw]]
- No Image
- Parallel reflected rays
![[20241123163302.excalidraw]]
- Size: Bigger
- Altit: Upright
- Loc: Behind mirror
- Typ: Virtual
- Flashlight: Produce parallel beam
- Telescope: Focusing distant source
- Cosmetic mirror: Enlarge images
![[20241123170548.excalidraw]]
- Principal Axis (
$\text{PA}$ ): Through$\text{C}$ , like the radius of the circle - Center of curvature (
$\text{C}$ ): The center of the curving side - Focus (
$\text{F}$ ): All parallel to$\text{PA}$ rays converge to$\text{F}$ - Vertex (
$\text{V}$ ): The end of$\text{PA}$ - Diverging
- Going through
$\text{C}$ : Rebouce - Going through
$\text{V}$ : Same angle - Going through
$\text{F}$ : Make parallel
![[20241123171338.excalidraw]]
- Size: Smaller
- Altit: Upright
- Loc: Behind mirror
- Typ: Virtual
- Security mirrors: Wide view angle
- Side-view car mirrors: Wide view angle
- Automatic Teller Machine security mirror: Wide view angle
-
$100%$ light pass through
-
$x%$ light pass through
-
$0%$ light pass through
- The bending of light
- From one medium to another
- Only occur in non-opaque mediums
- Speed change --> Cause direction change
$n_{k}=\frac{3.00\times10^{8};ms^{-1}}{k;ms^{-1}}$ - Ration between
- Speed of light (c) in vacuum
- Speed of light in a medium
![[20241123174122.excalidraw]]
$n_{i}\sin\theta_{i}=n_{R}\sin\theta_{R}$ $n_{k}=\frac{3.00\times10^{8};ms^{-1}}{k;ms^{-1}}$ - Fast to Slow: Bend towards normal
- Slow to Fast: Bend away normal
- If
$\theta_{i}=90^{\text{o}}$ , then$\theta_{r}=90^{\text{o}}$
- Different light energy bend differently
- More energy
$=$ Bend more (NON VACUUM ONLY) - White light disperse to a range of colored light
- Critical angle
- If incident ray is bigger
- Total internal reflection occurs
-
$\theta_{c}=\sin^{-1}{(\frac{n_{R}}{n_{{i}}})}$ $n_{i}\geq n_{R}$ - Slow --> Fast
- Fiber optic cables: Bouncing light to high speed communication
- Triangular prisms: Shift image position in binoculars
![[20241123213539.excalidraw]]
- Principal Axis (
$\text{PA}$ ): Through$\text{O}$ - Vertical Axis (
$\text{VA}$ ): Through$\text{O}$ - Optical Center (
$\text{O}$ ): The absolute middle of the lens - Focus (
$\text{F}$ ): All parallel lines converge
![[20241123214144.excalidraw]]
- Size: Smaller
- Altit: Laterally Inverted
- Loc: |F2F|
- Typ: Real
![[20241123211250.excalidraw]]
- Size: Same
- Altit: Laterally Inverted
- Loc: @2F
- Typ: Real
![[20241123214306.excalidraw]]
- Size: Bigger
- Altit: Laterally Inverted
- Loc: >2F
- Typ: Real
![[20241123214437.excalidraw]]
- No image
- Parallel reflected rays
![[20241123214557.excalidraw]]
- Size: Bigger
- Altit: Upright
- Loc: In front of lens
- Typ: Virtual
![[20241123223654.excalidraw]]
- Principal Axis (
$\text{PA}$ ): Through$\text{O}$ - Vertical Axis (
$\text{VA}$ ): Through$\text{O}$ - Optical Center (
$\text{O}$ ): The absolute middle of the lens - Focus (
$\text{F}$ ): All parallel lines diverge
![[20241123215726.excalidraw]]
- Size: Smaller
- Altit: Upright
- Loc: In front of lens
- Typ: Virtual
![[20241124113114.excalidraw]]
- Light control ring in front of the [[#pupil]]
- Open: Let more light
- Close: Let less light
- The hole that light enters
- Behind the [[#iris]]
- Transparent bulge (1st lens)
- Converging lens --> Focus light
- Light refraction
- Clear flexible structure (2nd lens)
- Flexible converging lens --> Focus and adjust light
- Change shape --> Adjust light focus
- Change shape using [[#ciliary muscle]]
- Relax and Contract
- Accommodation: Adjust the [[#lens]]
- Light sensitive cells
- Image focused on retina using [[#lens]] and [[#cornea]]
- Transfer electrical signals through [[#optic nerve]]
- Send electric signals towards the brain
- Receive electric signals from [[#retina]]
- Blind spot: The optic nerve entrance
- Cannot see near objects
- Object focused behind the [[#retina]]
- Eye ball is too short --> Distance between lens and retina too small
- Correction: Converging lens
- Cannot see far objects
- Object focused in front of the [[#retina]]
- Eye ball is too long --> Distance between lens and retina too large
- Correction: Diverging lens
- Cannot see near objects
- Object focused behind the [[#retina]]
- Inflexible [[#lens]] --> Cannot tweak the light focus
- Correction: Converging lens
- Slice a flap out of your [[#cornea]]
- Use laser to vaporize and carve a curve
- Close the flap, heals on it's own
- Long-term changes in Earth's average temperature and weather patterns.
- Cause
- Human: Fossil Fuels, Deforestation, Industrial Activity, Transportation
- Natural: Volcanic Eruptions
- How much has changed
- 1.1 since 1900s
- Melting ice caps
- Rising sea level
- Extreme weather
- Ocean acidification
| Weather | Climate |
|---|---|
| Changes in atmospheric conditions over a small period of time | Average change in atmospheric conditions over long period of time |
| Wind, Temperature, Precipitation | Tropical, Dry, Arctic |
- Distance from the equator (latitude)
- Presence of large bodies of water
- Presence of ocean
- Air current
- Land formations
- Height above sea level (altitude)
- Scientific forcast
- Computer models
- Human observations
- Past results
- Conduction: By contact
- Convection: By fluid
- Radiation: Travels as waves
- Electromagnetic spectrum
- Infrared (heat)
- Visible light
- Ultraviolet
- Heat
- Infrared Radiation is converted to thermal energy
- Thermal Energy raises the temperature
- Earth temp
$=$ Infrared Radiation - Note: The Heat comes from the ground
- Temperature
- Density of the ray
- Middle: Less distributed area
- Front and Back: Sloped -> More distributed area
- Earth is titled
- Density of the ray
-
$70%$ absorbed -
$30%$ reflected -
$<1%$ photosynthesis
- Polar Zones
- Temperate Zones
- Tropical Zones
- Tropic of Cancer: up
- Tropic of Capricorn: down
- The sun can be directly overhead
- Interact with each other
- Powered by the sun
-
Atmosphere: Gas surrounding the Earth
- Air content
$78%;\ce{N_{2}}$ $21%;\ce{O_{2}}$ $0.9%;\ce{Ar}$ -
$0.1%$ Other$0.04%;\ce{CO_{2}}$ $0.06%;\ce{CH_{4}, N_{2}O, O_{3}, Ne, H_{2}, He}$
- Var:
$\ce{H_{2}O}$ and Dust
- Altitude
- High altitude is colder
- Heat emits from the ground
- Thin air holds less moisture and heat
- High altitude is colder
- Heat sink
- Coriolis effect
- Original: Wind goes to the poles
- Earth's rotation make the wind go sideways
- Prevailing winds
- Warm air rise: Low pressure
- Cold air sink: High pressure
- Creates a wind loop
- Coriolis effect
- Air content
-
Hydrosphere: All water in all state
- Water Cycle
- Evaporation: Cooling effect
- Condensation: Heating effect
- Slow heating and cooling
- Heat capacity
- NOT Heat conductivity
- Heat sink
- Heat reservoir: Ocean
- Warm in winter: Slowly release heat
- Cool in summer: Slowly heating up
- Ocean current
- Cold water sink (dense)
- Hot water rise (less dense)
- Creates a current loop
- Cold
$=$ Dense - Salty
$=$ Dense
-
Lithosphere: Earth's crust and land
- Land formation (mountains)
- Windward (wet): Clouds retained
- Leeward (dry): Clouds blocked
- Land formation (mountains)
-
Biosphere: Living organisms
- Plants:
$\ce{CO_{2}}\to\ce{O_{2}}$ - Animals:
$\ce{O_{2}}\to\ce{CO_{2}}$
- Plants:
- Electron attractability
- Right corner of periodic table: Highest
- Electric charge distribution
- Non Polar Bond: Electron (charge) is equal in all atoms
- Polar Covalent Bond: Electron (charge) is uneven ([[#Electronegativity]])
- Ionic Bond: The atoms are distinct
- The atmosphere contain Greenhouse Gas
- Greenhouse gas and clouds absorb and reemit IR (heat)
- Heat trapper
$=$ Keep the Earth warm -
Greenhouse Gas
- Measured in PPM
$= 1\text{mgL}^{-1}$ -
$\ce{H_{2}O}$ : Water vapor- Positive feed back loop
-
$\uparrow$ vapor ->$\uparrow$ heat trapped -
$\uparrow$ heat trapped ->$\uparrow$ temperature -
$\uparrow$ temperature ->$\uparrow$ vapor
-
- Positive feed back loop
-
$\ce{CO_{2}}$ : Carbon dioxide- Pumped by the industrial age ($280$ppm -> $420$ppm)
- Carbon Sink (Offset
$\ce{CO_{2}}$ )-
$\ce{CO_{2}}$ absorbing reservoir - Forest, Phytoplankton
-
-
$\ce{CH_{4}}$ : Methane- Super powerful
- Produced by
- Plant decomposition
- Animal digestion
-
$\ce{N_{2}O}$ : Nitrous Oxide- Hyper powerful
- Produced by
- Bacteria in soil
- Industrial activity
-
$\ce{O_{3}}$ : Ozone- Stratosphere: Absorb
$\ce{UVA}+\ce{UVB}$ - Troposhere:
$\ce{NO}+\ce{NO_{2}}+\ce{VOCs}+\ce{UV}\to$ Smog ($\ce{O_{3}}+\text{Toxins}$ )- Come from cars
- Smog: Floggy air pollution
- Stratosphere: Absorb
- Measured in PPM
-
How does it work?
- Greenhouse gases are Polar Covalent Bonds
- Uneven
$=$ Lopsided charges - Lopsided
$=$ Stretch, Bend, Twist on their own - Wiggles
$=$ Absorb wide range of wavelengths- Absorb Infrared (heat)
- Reemit back to the earth
- Driven by convection (density)
- Thermo
$=$ Heat - Haline
$=$ Salt
- Thermo
- Hot water rise + Cold water sink --> Water movement
- The giant global conveyor belt
- Gyre: The infinite loop
- More hot water --> Speed up ice cap melting
- Nutrient, Oxygen, Heat, and Water flow
- More: Messy notes
- Moving continents change air + water circulation
- Change landform (Mountain windward)
- Change ocean current pattern
- Earth's climate alternate between Cold and Hot
- Change factors
- Orbit Eccentricity: Earth's ellipticalness
- Axial Tilt: Tilt angle affect season intensity
- Precession: Earth wobbles as it spins
-
$\ce{SO_{2}}$ Cloud screen blocks sunlight - Cool climate temporarily (like nuclear winters)
- Increase precipitation (more dust)
- Large wind and ocean current
- Bring warm pacific wind to south america
- Change global weather patterns
- Higher temps → More evaporation → More vapor → Higher temps
- Negative loop: Higher clouds reflect sunlight (stabilize)
- Ice reflects sunlight
- Positive loop: Less ice -> Less reflection -> Warmer -> Less ice
- Thick ring
$=$ Wet years - Thin ring
$=$ Dry years
- Layer by layer
- Atmosphere compounds
- Weather pattern
- Temperature pattern
- Volcanic activity
- Animals revel paleoclimate
- Animals can only live in specific climate
- Average global temperature increase since 1880s
- 11 of the last 12 years warmest record
- Significant glacier reduction
- Significant ice sheet reduction
- Cause
- Melting Glaciers and Ice
- Thermal expansion
- Decreased groundwater level
- More severe weather
- Hotter temperature
- Heat waves and Hurricane intensity
- Less winter of course
- More intense summers
- Caused by climate change
- Animals can only live in very specific conditions
![[20241210183230.excalidraw]]
- Greenhouse gas by human influence
-
$\ce{CO_{2}}$ : Carbon Dioxide -
$\ce{CH_{4}}$ : Methane -
$\ce{N_{2}O}$ : Nitrous Oxide
- Healthy forest
- Plants and Trees
- Rocks and Soils
- Ocean
- Water
- Phytoplankton (
$\ce{CO_{2}}$ only)
- Energy production
- Burning fossil fuels
- Extracting fossil fuels
- Transportation
- Industrial activities
- Burning biomass
- Livestock and Farming
- Deforestation
- Deforestation
- Decaying forests
- Forest fire
- Energy production
- Burning fossil fuels
- Extracting fossil fuels
- Transportation
- Industrial activities
- Burning biomass
- Livestock and Farming
- Melting permafrost
- Wetland (by microbes)
- Energy production
- Burning fossil fuels
- Extracting fossil fuels
- Transportation
- Industrial activities
- Burning biomass
- Livestock and Farming
- Waste and Sewage