Slide 1: Welcome to... The Show of the Century Recline Your Chair,
Put Your Feet Up and Enjoy... Learning About the
Respiratory and Circulatory
Systems of the Human Body Best viewed at full screen and high resolution Title Page : Caltex American School
By Jerry Hogan
& Meganne Benger Title Page Nasal Passage Bronchiole Alveoli Pharynx Trachea Bronchi Human Respiratory System Diagram Best viewed at full screen Respiratory System created Oxygen Cell : Oxygen Cell Hi I am O2 ,you can call
me oxygen, and I will be your guide today.
I advise you keep all feet
and hands inside the ride at all times. JH Respiratory Intro : Respiratory Intro You may be asking, what is the Respiratory system? Well, the Respiratory system is the system that helps you breath in and out, so oxygen (02) can be pumped through your body and carbon dioxide (CO2) can be removed from the blood stream. You must remember that the Respiratory system is made up of many different organs. JH Where are we? : Where are we? Here We Go!!! JH Picture Intro : Here is a overview picture of
the Respiratory System.
Just go to the next slide to see
it. Picture Intro MB Respiratory Overview Picture : Respiratory Overview Picture MB Welcome : The Respiratory System Welcome Now we will begin our tour.
Welcome to… MB The Nose and Mouth : This is where it all begins.
This is where the oxygen first
enters your body and also where
Carbon Dioxide leaves. The Nose and Mouth MB The Nose and Mouth : The Nose and Mouth When the air comes into your nose it gets
filtered by tiny hairs and it is moistened by the
mucus that is in your nose. Your sinuses also help out with your
Respiratory System. They help to moisten
and heat the air that you breath. Air can also get into your body through your
mouth/oral cavity but air is not filtered as
much when it enters in through your mouth. MB Nose and Mouth Picture : Nose and Mouth Picture Nasal Cavity Nostril
Oral Cavity Pharynx Here is a picture of your nasal and
oral cavity. MB Where are We? : Where are We? We are here. MB The Pharynx and Trachea : The Pharynx and Trachea Next we will head down to your pharynx
(throat) and your trachea (windpipe).
This is where the air passes from your
nose to your bronchi tubes and lungs. MB The Pharynx and Trachea : The Pharynx and Trachea Your pharynx (throat) gathers air after it passes
through your nose and then the air is passed down to
your trachea (windpipe). Your trachea is held open by “incomplete rings
of cartilage.” Without these rings your trachea
might close off and air would not be able to get
to and from your lungs. MB Where are We? : Where are We? We are here. MB The Bronchi Tubes and Bronchiole Intro : Your trachea (windpipe) splits up into
two bronchi tubes. These two tubes keep
splitting up and form your bronchiole. The Bronchi Tubes and Bronchiole Intro MB The Bronchi Tubes and Bronchiole : The Bronchi Tubes and Bronchiole These bronchi tubes split up, like
tree branches, and get smaller and smaller
inside your lungs. The air flows past your bronchi tubes
and into your bronchiole. These tubes
keep getting smaller and smaller until they
finally end with small air sacs (called alveoli).
But we will go there later… MB Alveoli and Bronchi Picture : Alveoli and Bronchi Picture Trachea Bronchi Tubes Bronchiole Alveoli MB Where are We? : Where are We? We are here. MB The Alveoli and Capillary Network : Now we will head over to the
alveoli and what happens when the
air finally makes it down there. The Alveoli and Capillary Network MB The Alveoli and Capillary Network : The Alveoli and Capillary Network Your alveoli are tiny air sacs
that fill up with air/oxygen when you
breath in. Your alveoli are surrounded by
many tiny blood vessels called
capillaries. The walls of your alveoli (and capillaries) are
so thin that the oxygen or carbon dioxide can
pass through them, traveling right into, or
out of your blood stream. MB Alveoli Picture : Alveoli Picture Here is a close
up picture of
and a Capillary
surrounding it. MB Where are We? : Where are We? We are here. MB Alveolus : Alveolus Bronchiole Respiratory Bronchiole Alveolar Duct Alveolar Sac Capillaries Alveolus JH Looking at the Alveoli : Looking at the Alveoli Lets take a closer
look shall we. JH Chemicals : Chemicals JH Diffusion : Diffusion Oxygen Carbon Dioxide Alveolus Contiguous Basal Laminae (Membrane*) Capillary JH * A specialized thin layer of skin that oxygen and carbon dioxide can pass through. Oxygen diffuses through the membrane into the blood stream. Carbon Dioxide diffuses through the membrane and enters the alveolus. Cool pictures : Cool pictures JH Intro to Diaphragm : Intro to Diaphragm Now we will look at the Diaphragm. You might be wondering, what does the Diaphragm do? The Diaphragm is an important factor in breathing. JH Diagram of Diaphragm : Diagram of Diaphragm JH Diaphragm Experiment : Here is an experiment that you can try. Diaphragm Experiment JH Experiment Instructions : Experiment Instructions 1st you need a bottle that you can sacrifice to
cut up. 2nd you cut the bottom of the bottle and put a big balloon on the bottom. 3rd get a rubber cork ( make sure it blocks the hole)and put a hole through it ( top to bottom). Insert a thin tube into the cork and place a balloon on the bottom of the tube. 4th make sure the thing is airtight. JH Respiratory Overview Review : Respiratory Overview Review CO2 JH The Pharynx, or throat, is located where passages from the nose and mouth came together. Air Passing over the mucus membrane of the nasal cavity is moistened, warmed, and filtered Inside the lungs the Bronchi branch into small tubes called bronchioles At the end of the bronchioles are bunches of alveoli, air sacs, arranged like grapes on a stem Air enters the trachea, or wind pipe which leads to and from the lungs The trachea divides into two tubes called bronchi If one lobe is injured or diseased, the other lobes may be able to function normally Fun Facts : Fun Facts * At rest, the body takes in and breathes out about 10 liters of air each minute.
* The right lung is slightly larger than the left.
* The highest recorded "sneeze speed" is 165 km per hour.
* The surface area of the lungs is roughly the same size as a tennis court.
* The capillaries in the lungs would extend 1,600 kilometers if placed end to end.
* We lose half a liter of water a day through breathing. This is the water vapor we see when we breathe onto glass.
* A person at rest usually breathes between 12 and 15 times a minute.
* The breathing rate is faster in children and women than in men. Key Words : Key Words Respiratory System- The group of organs in your body that are responsible for taking in Oxygen and breathing out the Carbon Dioxide which is the waste product of cellular respiration.
Oxygen-The gas that your body needs to work and function.
Carbon Dioxide- The waste product (gas) that is produced through respiration of people and animals.
Nose/Nasal Cavity- Where Oxygen first enters your body. Tiny hairs help filter the air and air is moistened and heated by your nose. Your Nose leads into your Nasal Cavity.
Mouth/Oral Cavity- Oxygen/air can also enter through your Mouth but it is not filtered. Your Mouth opens up into your Oral Cavity.
Sinus- A cavity in the bones of your skull that helps moisten and heat the air that you breath.
Pharynx/Throat- Gathers air from your Nasal and Oral Cavities and passes it to your Trachea.
Trachea/Windpipe- A tube like pathway that connects your throat to your Bronchi Tubes and lungs. Air passes through it when it travels from the Pharynx to the Bronchi Tubes. Key Words Cont. : Key Words Cont. Bronchi Tubes- Each tube (one per lung) splits up into many smaller tubes called Bronchiole, like branches on a tree.
Bronchiole- Keep splitting up until they reach your Alveoli.
Respiratory Bronchiole- The air-tubes that are actually connected to the Alveoli.
Alveolar Duct- The final tube, which is part of the Alveoli, that leads to the air-sacs.
Alveolar Sac- Where the chemical change takes place and where blood cells pick up oxygen and drop off carbon dioxide.
Alveoli- Tiny air-sacs at the end of your Alveolar Duct. They fill up with Oxygen and are surrounded by Capillaries.
Capillaries- Tiny blood streams (around one cell wide) that surround your Alveoli. They take Oxygen out of our Lungs and replace it with Carbon Dioxide, which you later breath out.
Diaphragm- The muscle membrane that helps you breath in and out by changing the pressure in your chest cavity. Works Cited : Works Cited For more information please visit:
-Why do you need to breathe? And basic info on parts of the Respiratory system
-An overview of the parts of Respiratory System
-A basic look at the Respiratory System
-Very detailed info and some animation-Has many other body systems too
-Web slides with a little info and good pictures
-The Nose and Nasal Cavity
Human anatomy coloring book Works Cited Cont. : Works Cited Cont. Where we got some of our pictures:
http://www.sirinet.net/~jgjohnso/humanrespiratory8.jpg Slide 39: Prepare Your Cranium For The Further Insertion of
Knowledge Title Page : The Circulatory System Hannah Redlich and Joe Zalan Caltex American School Duri, Indonesia Title Page Circulatory System Created by Introduction : Introduction The Circulatory System is the main cooling and transportation system for the human body
The body has about 5 liters of blood continuously traveling through it by way of the Circulatory System
In the Circulatory System, the heart, lungs, and blood vessels have to work together
The Circulatory System has three different parts: pulmonary circulation (lungs), coronary circulation (heart), and systemic circulation, (the rest of the system’s processes). The Heart : The Heart This organ is what pumps oxygen rich blood, nutrients, hormones, and the other things your body needs to maintain your health, to your organs and tissues.
The pulmonary veins you see on the right side of the diagram come from your lungs, where the blood cells collect oxygen. It’s then pumped out to the rest of the body through the Aorta (Top).
All of the blue sections show blood cells carrying waste, (C02) moving back to the lungs (where the C02 will be replaced by oxygen) through the Pulmonary Artery (Top, blue) Pulmonary Veins Pulmonary Artery (Inferior Vena Cava) From the Body (Aortic Artery) To the body Whenever the blood is pumped from one section of the heart another a valve closes behind it preventing the blood from moving backwards. By The Way… Valves: (tricuspid valve semilunar (pulmonary) valve, bicuspid (mitral) valve, and the semilunar (aortic) valve (Superior Vena Cava) From the Body Blood Flow through Heart : Blood Flow through Heart Blood from the body travels into the right atrium, moves into the right ventricle, and is finally pushed into lungs in the pulmonary arteries
The blood then picks up oxygen and travels back to the heart into the left atrium through the pulmonary veins
The blood then travels through the to the Left Ventricle and exits to the body through the Aorta… Right Atrium Left Atrium Blood Flow to Arms : Blood Flow to Arms Oxygen rich blood leaves the heart and travels through arteries
In the capillaries the oxygen and food is given to the body’s cells
The blood finally travels back through veins to the heart to pick up oxygen ARTERIES- FROM HEART CAPILLARIES VEINS- TO HEART Path to the Exchange : A red blood cell then travels from the heart through arteries that eventually branch into the body’s vast system of capillaries (microscopic blood vessels which connect arteries and veins), they eventually lead to… Pulmonary Vein Aorta Brachial Artery Renal Artery Redial Artery Ulnar Artery Iliac Artery Path to the Exchange The Exchange : When the itty bitty teeny tiny red blood cells pass the desired tissue they………………………………. TRANSACT The oxygen the blood cells are carrying is given to the body’s tissue. And the CO2 (waste) from the tissue is given to the same blood cell to be exhaled. Tissue Tissue Technically the Hemoglobin in the blood (a substance full of iron) attracts oxygen from the lungs. The red blood cell then carries it to the desired tissue. Because this tissue has a high CO2 count the hemoglobin lets go of its oxygen and collects the carbon dioxide. You see the hemoglobin has an affinity for whichever gas has a greater count. Because the tissue has a large amount of built up waste (CO2) the hemoglobin attracts it and then replaces it with oxygen, and vise versa in the lungs. How It Works… Oxy-Rich Blood Cell Oxy-Poor Blood Cell Now lets travel to the legs!!! The Exchange Blood Flow to Legs : Blood Flow to Legs Approximately 500 ml of blood moves from the heart and lungs down to the legs when a person stands up after lying down
The oxygen rich blood cells then travel through the capillaries where yet another… !FUN FACT! Gas Exchange Occurs, : The oxygen and CO2 are exchanged…in the cells Oxygen Rich Oxygen Rich Oxygen Poor Oxygen Poor Tissue Don’t forget that the Hemoglobin in the blood cells let go of the cell’s oxygen because of the large CO2 (waste) count in the tissue. Gas Exchange Occurs, Now lets go back to the heart!!! Circulation back to Heart : Circulation back to Heart Capillaries carry the blood to…
Venules that connect to veins and the…
Veins (wide blood vessels) carries the oxygen-poor blood back to the heart. To upper body From upper
body To lung To lung From lung Left Atrium Left Ventricle To lower body From lower
body Right Ventricle Right Atrium From lung Conclusion : Conclusion As you have learned (Hopefully) the Circulatory System is one of the most important systems in the human body… It is the only reason you’re still alive today… and you can attribute the cooling down, feeding of and protection of your body to it. So the next time you bust open your leg skateboarding you can thank your Circulatory System for patching you up. Works Cited : Works Cited For further information please visit:
http://www.carolguze.com/images/organsystems/circulatory2.jpg -circulation picture
http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/C/Circulation2.html -how circulatory system works
http://www.medical-art-service.de/assets/images/3_KA_704.jpg -Heart and Leg Pictures
http://www.ama-assn.org/ama1/pub/upload/images/446/circulationgeneral.gif -circulation picture
http://eduserv.hscer.washington.edu/hubio553/atlas/232.html -arm picture
http://adam.about.com/encyclopedia/19387.html -heart picture
http://www.tmc.edu/thi/anatomy1.html -detailed views of the Cardiovascular System
http://www.tmc.edu/thi/leg.jpg -complex leg picture
http://www.med.umich.edu/1libr/wha/circ.gif- diagram of the circulatory system
http://images.google.co.id/imgres?imgurl=http://www4.tpgi.com.au/users/amcgann/body/circulatory/body_circulation.jpg&imgrefurl=http://www4.tpgi.com.au/users/amcgann/body/circulatory.html&h=369&w=300&sz=23&tbnid=rSdZ_CMJpBYJ:&tbnh=117&tbnw=95&start=123&prev=/images%3Fq%3Dcirculatory%2Bsystem%26start%3D120%26hl%3Den%26lr%3D%26ie%3DUTF-8%26sa%3D -picture of heart valves
http://eduserv.hscer.washington.edu/hubio553/atlas/232.html -basic picture of arteries The End : So Take a Deep Breath and
Go Home The End The End!