This 15-minute video lesson provides an introduction to the circulatory system and the heart. [Biology playlist: Lesson 39 of 71].

Students will make a proportional model of blood out of red gelatin, a plastic bag, and rice. They will learn about the different components that make up blood and will investigate what happens when the arteries and veins experience buildup from cholesterol. They will then work in pairs to brainstorm ways to clean our clogged arteries.

Students are introduced to the circulatory system with an emphasis on the blood clotting process, including coagulation and the formation and degradation of polymers through their underlying atomic properties. They learn about the medical emergency of strokes the loss of brain function commonly due to blood clots including various causes and the different effects depending on the brain location, as well as blood clot removal devices designed by biomedical engineers.

Half of all Canadians are fit to donate blood, but only 1 in 60 Canadians gave blood last year. Our organ donation rates are also lower than many countries, including the United States.

Because blood behaves according to certain scientific principles, trained bloodstain pattern analysts can examine the blood evidence left behind and draw conclusions as to how the blood may have been shed. From what may appear to be a random distribution of bloodstains at a crime scene, analysts can categorize the stains by gathering information from spatter patterns, transfers, voids and other marks that assist investigators in recreating the sequence of events that occurred after bloodshed. This form of physical evidence requires the analyst to recognize and interpret patterns to determine how those patterns were created.

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Students are introduced to the circulatory system, the heart, and blood flow in the human body. Through guided pre-reading, during-reading and post-reading activities, students learn about the circulatory system's parts, functions and disorders, as well as engineering medical solutions. By cultivating literacy practices as presented in this lesson, students can improve their scientific and technological literacy.

We take a look at the basic composition of blood. Blood is composed of liquids and solids. The solids are called the formed elements while the liquid portion is called plasma. The solids of the blood consists of red blood cells, white blood cells and platelets . The plasma is mostly water, but it does contain some plasma proteins, dissolved gases, nutrients and electrolytes.

Lesson 2 in our Cardiovascular System (Blood) series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support helps us make more videos. For the complete series please visit http://mrfordsclass.net/

Blood Videos
-Introduction to Blood (13:01): http://youtu.be/-Y5U49E-CM4
-Composition of Blood (13:02): http://youtu.be/YHCIMKZ0zrg
-Hematopoiesis-Making Blood (13:03): http://youtu.be/sibrcrXHJGI
-Red Blood Cells (13:04): http://youtu.be/19_6kUCVYfk

Heart and Blood Vessels Videos
-Heart Fundamentals (14:01): http://youtu.be/Y335KJ-EuDw
-Layers of the Heart (14:02): http://youtu.be/8PlwFTwJRMQ
-Chambers in the Heart (14:03): http://youtu.be/SdNQtPzUfHg
-Introduction to Blood Vessels (14:08): http://youtu.be/GVs8cd6jv94
-Types of Blood Vessels (14:09): http://youtu.be/_jkQR8v-bAg
-Movement of Blood (14:11): http://youtu.be/x9dH5TpKntk

In this video take a look at hematopoiesis (haematopoiesis), or the creation of blood. While we are still embryos the formation of blood can occur in multiple sites. After birth production primary takes place in red bone marrow.

All blood cells that are circulating derive from pluripotential hematopoietic cells also known as hematopoietic stem cells (HSCs). These stem cells can form any of the blood cells or other stem cells. Hematopoietic Growth Factor will help determine what the stem cell grows into.

There are three families that blood cells can grow up to become: 1) Erythroid cells, 2) Lymphocytes, and 3) Myelocytes.

Lesson 3 in our Cardiovascular System (Blood) series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support helps us make more videos. For the complete series please visit http://mrfordsclass.net/

Blood Videos
-Introduction to Blood (13:01): http://youtu.be/-Y5U49E-CM4
-Composition of Blood (13:02): http://youtu.be/YHCIMKZ0zrg
-Hematopoiesis-Making Blood (13:03): http://youtu.be/sibrcrXHJGI
-Red Blood Cells (13:04): http://youtu.be/19_6kUCVYfk

Heart and Blood Vessels Videos
-Heart Fundamentals (14:01): http://youtu.be/Y335KJ-EuDw
-Layers of the Heart (14:02): http://youtu.be/8PlwFTwJRMQ
-Chambers in the Heart (14:03): http://youtu.be/SdNQtPzUfHg
-Introduction to Blood Vessels (14:08): http://youtu.be/GVs8cd6jv94
-Types of Blood Vessels (14:09): http://youtu.be/_jkQR8v-bAg
-Movement of Blood (14:11): http://youtu.be/x9dH5TpKntk

In this anatomy physiology video we take a look at the functions of blood and the general composition of blood.

Lesson 1 in our Cardiovascular System (Blood) series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support helps us make more videos. For the complete series please visit http://mrfordsclass.net/

Blood Videos
-Introduction to Blood (13:01): http://youtu.be/-Y5U49E-CM4
-Composition of Blood (13:02): http://youtu.be/YHCIMKZ0zrg
-Hematopoiesis-Making Blood (13:03): http://youtu.be/sibrcrXHJGI
-Red Blood Cells (13:04): http://youtu.be/19_6kUCVYfk

Heart and Blood Vessels Videos
-Heart Fundamentals (14:01): http://youtu.be/Y335KJ-EuDw
-Layers of the Heart (14:02): http://youtu.be/8PlwFTwJRMQ
-Chambers in the Heart (14:03): http://youtu.be/SdNQtPzUfHg
-Introduction to Blood Vessels (14:08): http://youtu.be/GVs8cd6jv94
-Types of Blood Vessels (14:09): http://youtu.be/_jkQR8v-bAg
-Movement of Blood (14:11): http://youtu.be/x9dH5TpKntk

Red Blood Cells also known as red blood cells (RBCs) or erythrocytes are around 7.5μm in diameter. The average number (red blood cell count) is typically:
*5,200,000 per cubic millimeter ± 300,000 men
*4,700,000 per cubic millimeter ± 300,000 women

Red blood cells are made of hemoglobin. When the hemoglobin combines with oxygen it is called oxyhemoglobin, when oxygen has been released it is known as deoxyhemoglobin. The RBC initially have a nuclei during the early stages of development, they then remove the nuclei to help make room for hemoglobin.

Lesson 4 in our Cardiovascular System (Blood) series. This is part of our Anatomy and Physiology lecture series.

If this video helps you please be sure to LST -like subscribe and tell your friends. Your support helps us make more videos. For the complete series please visit http://mrfordsclass.net/

Blood Videos
-Introduction to Blood (13:01): http://youtu.be/-Y5U49E-CM4
-Composition of Blood (13:02): http://youtu.be/YHCIMKZ0zrg
-Hematopoiesis-Making Blood (13:03): http://youtu.be/sibrcrXHJGI
-Red Blood Cells (13:04): http://youtu.be/19_6kUCVYfk

Heart and Blood Vessels Videos
-Heart Fundamentals (14:01): http://youtu.be/Y335KJ-EuDw
-Layers of the Heart (14:02): http://youtu.be/8PlwFTwJRMQ
-Chambers in the Heart (14:03): http://youtu.be/SdNQtPzUfHg
-Introduction to Blood Vessels (14:08): http://youtu.be/GVs8cd6jv94
-Types of Blood Vessels (14:09): http://youtu.be/_jkQR8v-bAg
-Movement of Blood (14:11): http://youtu.be/x9dH5TpKntk

Students demonstrate the erythrocyte sedimentation rate test (ESR test) using a blood model composed of tomato juice, petroleum jelly and olive oil. They simulate different disease conditions, including rheumatoid arthritis, anemia, leukocytosis and sickle-cell anemia, by making appropriate variations in the particle as well as in the fluid matrix. Students measure the ESR for each sample blood model, correlate the ESR values with disease conditions and confirm that diseases alter blood composition and properties. During the activity, students learn that when non-coagulated blood is let to stand in a tube, the red blood cells separate and fall to the bottom of the tube, resulting in a sediment and a clear liquid called serum. The height in millimeters of the clear liquid on top of the sediment in a time period of one hour is taken as the sedimentation rate. If a disease is present, this ESR value deviates from the normal, disease-free value. Different diseases cause different ESR values because blood composition and properties, such as density and viscosity, are altered differently by different diseases. Thus, the ESR test serves as a real-world diagnostic screening test to identify indications of the presence of any diseases in people.

This student material on forensics covers the following:
- Blood
- Experiment Inventory
- Bloodstain Analysis

Although mom controls the oxygen source, the fetus has a couple of clever tricks to get the most oxygen possible! Rishi is a pediatric infectious disease physician and works at Khan Academy.

This site answers questions such as:

What Does the Heart Do?
What Does the Circulatory System Do?
What Are the Parts of the Heart?
What Are the Parts of the Circulatory System?
How Does the Heart Beat?
How Can I Help Keep My Heart Healthy?

This site also includes a diagram of the circulatory system.

This lesson describes how the circulatory system works, including the heart, blood vessels and blood. Students learn about the chambers and valves of the heart, the difference between veins and arteries, and the different components of blood. This lesson also covers the technology engineers have developed to repair the heart if it is damaged. Students also understand how the circulatory system is affected during spaceflight (e.g., astronauts lose muscle in their heart during space travel).