Kategorier: Alla - biology - cells - circulation - digestion

av JORDAN HUGET för 1 år sedan

87

Medicine

The fundamental principles of biology and medicine are rooted in the cell theory, which states that all living organisms are composed of cells, and all cells arise from pre-existing cells.

Medicine

Medicine

Chemistry

Compounds
Acides and Bases

Ph scale

We use this scale to determine the acidity of à substance (closer to 0 very acidic, closer to 14 very basic)

The scale is logarithmic to the base of 10 (level 3 is 10x stronger than level 4)

0-6 (acidic) , 7 (neutrul) , 8-14 (basic)

Electrolytes

Substances capable of dissociating into ions in water. These substances form conductive solutions (conduct electricity).

Bases

When bases are dissolved in water, hydroxide ions are formed (OH

a compound that ends with hydroxide **except bicarbonate

Acides

When acids are dissolved in water, hydrogen ions are formed (H)

a compound that starts with hydrogen

Balancing equastions

This is done by multiplying the elements on either side according to their electrons. (Ex. Ca + Cl2 → CaCl2)

We do this so that it follows the law of conservation of mass.

Reactants → Products

Chemical reactions

Double displacement special cases

Nutrilization

Acid + Base = Salt and water (ex. HCl + NaOH = NaCl + H2O)

Incomplete combustion

4CH4 + 6O2 → CO2 + 8H2O + 2CO + C

Complete combustion

CH4 + 2O2 → CO2 + 2H2O2 + Énergie thermique

Double displacement

(ex. AgNO3 + NaCl → AgCl + NaNO3)

AB + CD → AD + CB

Simple displacement

(ex. Zn + CuCl2 → ZnCl2 + Cu)

A + BC → AB + C if “A” is an anion

A + BC → AC + B if “A” is a cation

Decomposition

(ex. H2CO3 → CO2 H2O)

AB → A + B

Synthesis

(ex. C + O2 → CO2)

A + B → AB

Nomencalture (name to formula)

Second element symbole (with charge) + first element symbole (with charge) → exchange charges (ex. Li2O)

Molecular

***index of prefixes are : 1. mono, 2. di, 3. tri, 4. tetra, 5. penta, 6. hexa, 7. octa, 8. nona, 9. deca

First element symbole + Second element symbole (if it has a prefix add as an index) (ex. SF2)

Nomencalture (formula to name)

Ionic

***works for polyatomic, binar ionic, multivalent ionioc

Metal + non metal with “ide ending” (ex. sodium fluoride)

Molecular

*** prefixes are : mono, di, tri, tetra, penta, hexa, octa, nona, deca

First element + Second element with designated prefix (ex. calcium oxide)

Types of compounds and classifying them

Is it binary?

← YES

Does it have any metals?

Is there more to it than one ionic charge?

YES : multivalent ionic compound

NO : binary ionic compound

NO : molecular compound

NO : polyatomic compound

Diatomic molecules

There are only 7 (O2 , N2 , F2 , Cl2 , Br2 , I2 , H2)

An atom can share a pair of electrons with another atom of the same type to form a molecule. (ex. O2 oxygen)

Molecular compounds

The bonds can be single, double or triple

Covalent Bond is when two non-metals bond together, instead of giving or receiving electrons, they share their electrons.

Ionique combounds

Ionic Bond is when positive and negative ions attract each other after electron reorganization

Anions are non metals with à negative charge

Cation are metals with positive charge

Elements, Compositions, Homogeneous and Heterogeneous

Hetrogeneous is way to describe compositions when we cant see all the different aspects (ex. coffee)

Homogeneous is a way to describe compositions when we can see all the different aspects (ex. salade)

Composition’s are the combination of multiple elements. (ex. H2O water)

Element’s are found on the periodique table, we have 118 elements (ex. O oxygen)

Physics (optics)

Refraction
N = C/V (to calculate speed of light) (C is 3.0x10**8 m/s)
Light speed is 3.0x10**8 m/s
Light is bent towards normal when the speed of light in the second medium is greater than the first.
Light is bent away from normal when the speed of light in the second medium is less than in the first.
When light passes through a medium where there is more or less resistance, its speed changes, causing it to change direction.
Refraction is the deviation or change in direction of light as it passes from one medium to another.
Curved mirrors
Lenses vs Mirrors

Lenses are based on the law of refraction

Mirrors are based on the law of reflection

Equations

Hi - Di H = -- + -- Ho Do

1 1 1 -- = -- + -- F Do Di

Variables

M or G: magnification or enlargement of the image

F: distance from the foyer to the mirror

Hi: height of the image

Ho: height of the object

Di: distance from the image to the mirror

Do: distance from the object to the mirror

Convex mirror (divergent)

A ray directed towards the center of curvature (C) is reflected back on itself.

A light ray directed towards the focus (F) is reflected parallel to the main axis

A light beam parallel to the main axis is reflected as if coming from the focus.

Point of incidence: The point where the incident ray strikes the surface.

A convex mirror always produces a smaller virtual image.

The rays meet only at a point behind the mirror

In convex mirrors, the reflection comes from the convex surface at the center of the sphere.

Convex mirrors are curved mirrors with a SPHERICAL shape

Concave mirror (convergent)

Rules

A ray directed towards point S of the mirror will follow the laws of reflection (can be measured along the main axis).

A ray passing through F will be reflected parallel to the main axis.

A light beam passing through the center (C) of curvature is reflected back on itself - returning to its source.

A light beam PARALLEL to the main axis is reflected through the FOYER (F).

Focus (F): Light rays parallel to the main axis will be reflected and converge at a single point (the focus) by the mirror.

Vertex (S): Point of intersection between the principal axis and the mirror

Main axis: The line connecting the center of curvature (C) to the center of the mirror.

Center of curvature (C): Center of the sphere whose surface serves as a mirror.

Rays meet at a point before the mirror (foyer)

In concave mirrors, the reflection comes from the recessed surface at the center of the sphere.

Concave mirrors are curved mirrors with a SPHERICAL shape.

Flat mirrors
Perpendicular rays will always reflect back against themselves
Flat mirrors are always the same size, upright, same distance behind the mirror as in front of it and virtual
Finding the reflected line

Use that angle on the other side of normal to find the ray

2. Messure the angle of incidence

1. Find the normal

Important terms

Angle of reflection: The angle between the reflected ray and the normal

Angle of incidence: The angle between the incident ray and the normal

Normal: A line perpendicular to the surface at the point of incidence

Point of incidence: The point where the incident ray strikes the surface.

Reflected ray: The light ray bouncing off the surface

Incident ray: Incoming light ray striking the surface

4 characteristics of an image (TEST)

Type (real, virtual)

S

Sens/Direction (upright,inverted)

E

Emplacement/Location (where is it?)

T

Taille/Size (smaller, bigger, same)

The law of reflection
2. Incident ray, reflected ray and normal lie in the same plane (side of reflecting surface)
1. Angle of incidence equals angle of reflection
How light is produced?
Triboluminescence

ex. Wint-O-Green Lifesavers

light is generated when material is separated, torn, scratched, crushed or rubbed by the breaking of chemical bonds in the material

Electric discharge

ex. neon signs

light produced by the passage of an electric current through a gas

Chemiluminescence

ex. glow sticks

the emission of light resulting from a chemical reaction

Bioluminescence

ex. fireflies

chemiluminescence that occurs in a living organism

Fluorescence

ex. LED lights

the emission of light by a substance that has absorbed ultraviolet light

Incandescent

ex. candles

is the emission of light resulting from a high temperature

Non-luminous object - an object that does not produce its own light (we simply see the light reflected from its surface).(ex. the moon, a desk)
Luminous object - object that produces its own light (ex. the sun, a lamp)
Waves
Frequency: the number of times a periodic phenomenon is repeated per unit of time. The lower the frequency, the greater the wavelength, and vice versa.
Electromagnetic spectrum (ROYBIV)
Red (longer wave, less energy) Purple (shorter wave, more energy)
The electromagnetic spectrum refers to the set of possible frequencies for all electromagnetic radiation.
Light
The intensity of light depends on the density of photons. If intensity increases, so will density.
It consists of photons, which display the properties of waves and particles.
Light is a form of energy visible to the naked (human) eye.

Biology

Biological systems
Plant

Transpiration principales

Absorption (water is absorbs from the soil by osmosis through absorbent hairs)

Transportation ( cohesion and adhesion forces, drives water in the xylem from roots to leaves against the force of gravity)

Transpiration (water absorption by stomata, absorption of root water by change of presssion)

Tissues (plant)

Fundamental (middle)

Between the two tissues, most of the tissues

Vasculaire (used to transport l’eau et glucose, similar to ciculation or veins, on bottom)

Xyleme (carries water and nutrients to all cells by roots)

Phloem (delivers the sugars produced in the leaves to the rest of the plant)

Dermal (used to protect, similar to skin, on top)

Peridermic (forms the outlet of stems and large roots) Secondary growth

Epidermique (like skin, cells on the outside that have access to the rest of the world) Primary growth

Plant systems

Root systems

Underground systems. Its function is to absorb water, nutrients from the soil and stabilize the soil.

Reproductive organ

Responsible for sexual reproduction, contains male and female reproductive organs.Male organs produce pollen grains-etamines and antheres. Female organs produce ovaries composed of a pistil and ovule, the ovules foncsondes for pollen.

The foliage system (stem, leaves and flower)

The systeme that is above ground, with three functions. (photosynthèse, transport, reproduction)

Animal

Pulmonary system

Also known as the grand circulation, corresponds to the circulation of deoxygenated blood from the heart to the lungs, where it is reoxygenated. It also includes the return of oxygenated blood from the lungs to the heart.

Systemic system

Also known as grand circulation, refers to the flow of oxygenated blood from the heart to all the body's organs. It also includes the return of oxygenated blood from the organs to the heart.

Circulatory system

Blood vessels

Capillaries, the smallest blood vessels and perform BY/TO.

Veins, blood returns TO the heart

Arteries, blood is pumped BY the heart

Parts of the heart

Right ventricle

Articular valve

Left ventricile

Arterial valve

Atrioventricular valve

Pulmonary vein

Aorta Pulmonary artery

Superior vena cava

Left auricle

Right auricle

Blood components

Plasma: helps your body recover from injury, distribute nutrients, eliminate waste and prevent infection.

Platelets : Contributes to blood coagulation

White blood cells: defend the body against viruses and bacteria that can cause infection.

Red blood cells: transport oxygen from the lungs to the rest of the body, as well as carbon dioxide from the body to the lungs.

Respitory system

Inspiration: muscle of diaphragm increases in volume

Expiration: muscle of diaphragm decreases in volume

Parts of the respiratory system

Capillary: small thin bloodvesils, connecting arteries and viens.

Diaphragm: muscle that helps breath

Alveolus: tiny air sacs at the end of bronchioles, exchange gases

Bronchioles: tiny branche of air that have alveolus

Branch: airway that leads to bronchioles

Tranchee: airway that leads to branch

Digestive system

Parts of the digestive system

Large intestine/colon (absportion,excretion): absorption of water and excretion of fecal matter, colon

Pancreas (digestion): chyme neutralization, pancreas

Gallbladder (digestion): bile storage, gallbladder

Liver (digestion): bike secretion, bile storage, liver

Small intestine (digestion, absorption): ⅔ nutrient absorption, ½ digestion, villositis

Stomach (digestion): food storage breaks down nurture with muscle and forms dough, stomach

Oesophage (ingestion): food descends through the muscles, oesophage

Oral cavity (ingestion and digestion): chewing food for digestion, teeth, tongue, lips, uvula, cheeks et palate

Cell cycle
Why do cells stop the cell cycle?

Gene "suicide" proteins kill cell or contents are packed up and shared with other cells

It's time to die, too damaged or cell contents leak out

It becomes specialized for a specific function

Why can AND be damaged?

Naturally or through mutagenesis

Genetic mutation that changes the structure and function of proteins in the cell

Mutation that changes the order of AND

Why does a cell stop growing?

DNA is damaged

Chromosomes did not divide properly during mitosis

DNA does not replicate well in intrephase

Not enough nutrients

This type of cell is not required

Why cells divide

Reproduction (produce smaller cells)

Reperation (replaces damaged cells)

Growth (increase # of cells)

Cytokinese

The division of a cell into two

Mitosis (nuclear division)

Telophase: the nuclear membrane is restored, chromosomes relax=chromatins

Anaphase: fursorial fibers consent and pull chromatin from the opposite poles of the cell.

Metaphase (check point): chromatin pairs align, fursorial fibers attach to centrioles

Prophase: nuclear membrane decomposes, chromatins condense to become chromatids, centrioles produce fursorial fibers (animal)

Interphase (90-95% of à the life of a cell)

G2: preparation for nuclear division (mitosis), check point

S (Synthese) : duplication of DNA in nucleus, breakpoint/verification

G1: cell growth, normal process, organelle duplication, preparing for division

Osmose: Movement of water through à membrain semi-permi. to à zone high con. en solute.
Diffusion: Movement of particules from à high con. zone to low con. zone.
Organisms
Eucaryotes

Plant cells

Meristems (indifférent celles)

type 2 Meristems lateral, helps grow wide. secondary

type 1, Apical meristems, helps grow up. primary

Parts of a vegetable cell

Chloroplast: Organelle of plant cells, containing chlorophyll for photosynthesis.

Cell wall: A kind of shell that sits on top of the membrane.

Vibratory cilia: little hairs that allow the cell to move.

Vacuole: Space filled with water, sugar, minerals and proteins (BIGGER then animal)

Specilized calls

Stomach : holes on the infire side of the plante that accept and release water,CO2, O2

Guard : cells used to contract the stomach to dilate and close.

Palisade cells : in the leaf of a plant, the cell layer filled with chloroplast

Absorbent fibres : on the root of a plant are the extensions of individual epidermal cells, water penetrates these hairs by osmosis

Animal cells

Specilized cells

Connective: support for other fabrics, connects different parts of the body (has red and white globules, red are soft)

Nervous: carries messages to and from body parts (are long and thin, has branches)

Muscular: allows the body to move (contraction), pumps blood through the body, pushes food through the intestine (organiz packs)

Epithelial: covers the surface of the body's exterior and organs, also forms the passage lining in the body (layered organization)

Parts of an animal call

Circular shape

Vibratory cilia: little hairs that allow the cell to move.

Flagelle: tail used to move the cell around the body

Centriole: essential for cell division.

Cytoplasm: The part of the cell responsible for the absorption, transport and transformation of nutrients.

Vacuole: Space filled with water, sugar, minerals and proteins (SMALLER than vegetable one)

Cell membrane: Covers the entire cell. It is the guardian and manages the entry and exit of cellular substances.

Chromosomes: The genetic material. Each contains genes that are responsible for hereditary traits.

Nucleus: The command center in charge of all activities.

Lysosome: By the Golgi apparatus; contains proteins that degrade large molecules and other parts of the cell. (Like our excretory system = sends out waste).

Golgi apparatus: stores proteins before releasing them into or out of the cell.

Endoplasmic reticulum: Series of pathways (channels) used to transport materials within the cell. (Like our veins).

Ribosome: Responsible for producing the proteins needed for cell growth and reproduction.

Mitochondria: Function = to supply energy to the cell.

Nucleolus: The brain of the cell, function= protein production.

Several cells (multicellular organism)

Procariotes

No nuclear (Ex. E-Coli)

Cell theory
All organisms are composed
They all have a basic structure
All cells come from other cells