learning objectives
learning objectives

... 1. Red blood cells absorb the carbon dioxide when they release their oxygen. 2. An enzyme called carbonic anhydrase combines with molecules of carbon dioxide so they are not released into tissues where carbon dioxide is low. 3. The bound carbon dioxide dissociates into bicarbonate ions that do not d ...
Ch. 2 - The Chemistry of Life
Ch. 2 - The Chemistry of Life

... ◦ Include sugars and starches ◦ Classified according to size  Monosaccharides—simple sugars ex: glucose C6H12O6  Disaccharides—two simple sugars joined by dehydration synthesis ex: maltose C12H22O11  Polysaccharides—long-branching chains of linked simple sugars ex: starch and glycogen ...
In Class Notes Week 11
In Class Notes Week 11

... 105. Gamma hydroxybutyric acid, GHB, infamous as a "date rape" drug, is used illicitly because of its effects on the nervous system. The condensed molecular formula for GHB is HO(CH2)3COOH. (a) Write the Lewis structure for GHB. ...
SCH3U - Norbraten
SCH3U - Norbraten

... Copper metal and sulfuric acid react to form solid copper (II) sulfate and water and sulfur dioxide. Hydrogen gas and gaseous nitrogen monoxide react to form water and nitrogen gas. ...
ABG’s
ABG’s

... • Glucose + Oxygen > Carbon dioxide + water • CO2 + H2O > H2CO3 > H+ + HCO3• Carbon dioxide + water > carbonic acid > acid + ...
Name - Hartland High School
Name - Hartland High School

...  dissolved in the blood plasma (small amounts) Carbon dioxide is transported in blood in two ways:  in blood plasma as bicarbonate ion (HCO3-) (most of it does this)  inside RBCs bound to hemoglobin (20-30 percent) Supporting Details Carbon dioxide does not interfere with oxygen transport because ...
REVIEW FOR FINALS TT^TT (TEEHEE)x
REVIEW FOR FINALS TT^TT (TEEHEE)x

... electrons are transported across a membranes to pump hydrogen ions across into the intermembrane compartment Intermembrane area- between outer membrane and inner membrane, part of the electron transport system Chemiosmosis- where hydrogen ions move down their concentration gradient to create ATP thr ...
Chapter 3 Part 2 Review
Chapter 3 Part 2 Review

... photosynthesis in the forest. One morning, it wakes up with dew on its leaves. The sunshine immediately begins to evaporate the dew. Suddenly, a storm rolls in and a giant wind knocks the tree to the ground. A limb is struck by lighting and partially burns. Over the next year, the remaining parts of ...
Solutions to Questions in the Cellular Respiration booklet
Solutions to Questions in the Cellular Respiration booklet

... requires energy while exergonic is any process that gives off energy. #2. glucose #3. Movement; production of proteins; active transport: cellular division #4. Aerobic respiration is when oxygen is used within the mitochondrion to produce 36 ATP molecules and the waste products of water and carbon d ...
IGCSE Revision document
IGCSE Revision document

... Sodium chloride NaCl is a ____________. There are __________ bonds between the two the same/ different numbers of electrons. elements _________ and _________. When these atoms bond one ____________ from the • Isotopes are atoms of the same element with ___________ atom is donated to the ____________ ...
Class Notes
Class Notes

... inhalation. • List the steps involved in inhaling air. • What happens the oxygen absorbed into the blood? • Where does the extra CO2 in the blood come from? • What does oxygeneated blood mean? ...
3.4.4 Lungs Breathing - Spanish Point Biology
3.4.4 Lungs Breathing - Spanish Point Biology

... inhalation. • List the steps involved in inhaling air. • What happens the oxygen absorbed into the blood? • Where does the extra CO2 in the blood come from? • What does oxygeneated blood mean? ...
Writing Chemical Equations KClO3 O2 (g) + KCl (s) Balancing
Writing Chemical Equations KClO3 O2 (g) + KCl (s) Balancing

... because that is how the formulas must be written. To balance the equation we put numbers in front of the formulas to multiply the number of atoms in each formula. 2H2O  2H2 + O2 This gives us 4 atoms (2x2) of hydrogen before and 4 atoms of hydrogen after; 2 atoms (2x1) of oxygen before and 2 atoms ...
Detecting Endogenous Macromolecules
Detecting Endogenous Macromolecules

... Then FITC Fluorescence, rather than a converted substrate, as secondary to mark protein’s presence RED, PI, nuclear counterstain ...
Lung Structure PowerPoint slides Unit 1 VCE Biology
Lung Structure PowerPoint slides Unit 1 VCE Biology

... • This will help you understand the processes of inspiration, expiration and intrapleural pressure • Complete the questions on the handout (for homework if necessary) ...
SBI3C Cell Biology Unit Test
SBI3C Cell Biology Unit Test

... ____ 1.Lysosomes are found only in plant cells. ____________________ ____ 2.The Golgi apparatus chemically changes fats and proteins and then packages them in vesicles. ____________________ ____ 3.In a chloroplast the thylakoids are stacked on top of one another forming structures called stroma. ___ ...
as pe physiology revision exam questions & mark schemes
as pe physiology revision exam questions & mark schemes

... * Activity from brain in anticipation of exercise * Proprioceptors in muscles and joints detect movement * Increases in body temperature b) * Inspiration caused by lowering air pressure in lungs by increasing volume of lungs. * Achieved by diaphragm contracting and flattening and intercostal muscles ...
Name
Name

... Mr. Happy Oxygen molecule goes in your nose (or mouth) and then down into your trachea. From there he goes into one of your two bronchi and then into a bronchiole. The last step in your lungs is in the alveoli where Mr. Happy Oxygen molecule goes into your blood. In the blood it is carried to a cell ...
Teacher`s Guide for “Breathe In Breathe Out” CT State Standards
Teacher`s Guide for “Breathe In Breathe Out” CT State Standards

... 1. This
concept
can
be
tricky
for
students
to
visualize.
Red
blood
cells
 picking
up
oxygen
from
the
alveoli
and
exchanging
it
for
carbon
 dioxide.
Then
the
oxygen
gets
taken
into
the
body’s
cells.
 2. In
the
body’s
cells,
the
mitochondria
serve
as
the
power
plants
as
 learned
in
“The
Cell
Song.”
Th ...
INTRODUCTION TO THE RESPIRATORY SYSTEM
INTRODUCTION TO THE RESPIRATORY SYSTEM

... a) Bronchus (bronchi): one of two large branches into lungs b) Bronchioles: any of the tiny branches into which a bronchi divides Alveoli: sacs that fill with oxygen when we breath in and carbon dioxide when we breath out. They are the site of gas exchange between the lungs and the circulatory syste ...
Regulation of flavor and texture in apple fruit genetically
Regulation of flavor and texture in apple fruit genetically

... A salient genetic attribute of tree fruits is the unique blend of sugar, acid and volatile components that determine their flavor, a hallmark of the quality of each kind of fruit (e.g., apple, peach, orange). This complex genetic trait is manifested in ripe fruit through a complex interaction of met ...
Empirical and Molecular Formula Problems – Set I
Empirical and Molecular Formula Problems – Set I

... (K3PO4) (c) 52.14%C, 13.13%H, and 34.73% O. (C2H6O) ...
fat-soluble
fat-soluble

... Why is oxidative phosphorylation the most important mechanism for generating ATP? 1. It requires less energy than other mechanisms. 2. It requires fewer steps to produce ATP molecules. 3. It produces more than 90% of ATP used by body cells. 4. It allows the release of a tremendous amount of energy. ...
Chapter 25 - FacultyWeb
Chapter 25 - FacultyWeb

... Why is oxidative phosphorylation the most important mechanism for generating ATP? 1. It requires less energy than other mechanisms. 2. It requires fewer steps to produce ATP molecules. 3. It produces more than 90% of ATP used by body cells. 4. It allows the release of a tremendous amount of energy. ...
Respiratory System
Respiratory System

... The lungs are paired organs that lie on either side of the heart and fill up the thoracic (chest) cavity. Inferior to (below) the lungs is the diaphragm, a broad thin muscle that separates the thoracic cavity from the abdominal (gut) cavity. On the medial (inner) surface of each lung is the hilus, w ...

Gaseous signaling molecules

Gaseous signaling molecules are gaseous molecules that are either synthesised internally (endogenously) in the organism, tissue or cell or are received by the organism, tissue or cell from outside (say, from the atmosphere or hydrosphere, as in the case of oxygen) and that are used to transmit chemical signals which induce certain physiological or biochemical changes in the organism, tissue or cell. The term is applied to, for example, oxygen, carbon dioxide, nitric oxide, carbon monoxide, hydrogen sulfide, sulfur dioxide, nitrous oxide, hydrogen cyanide, ammonia, methane, hydrogen, ethylene etc.Many, but not all, of gaseous signaling molecules are named gasotransmitters.The biological roles of each of the gaseous signaling molecules are in short outlined below.