a_and_p_Chapter_1__ppt_hs

... Obj. 7 Describe the body systems 1. Integumentary- skin and anything in skin protects. The skin is your largest organ 2. Skeletal- bones support, protect and make blood cells 3. Muscular system- move the body and produces heat ...

the human body systems

... (urea, water) 4. protects against sun’s UV rays 5. produces vitamin D 1. stores and Lymphatic carries WBC’s that fight disease 2. collects excess fluid and returns it to blood (2nd circulatory system-reaches places other one can’t – between cells) ...

the human body systems

Chapter 9 Review Key

... and fights, infections. Digestive system: liver controls amino acid levels, detoxifies harmful chemicals, and manufactures blood proteins. Integumentary system: helps control body temperature. 36. In a negative feedback system, the body senses a change and activates mechanisms that slow down or decr ...

Insecta

... • Obtain oxygen through body surface (diffusion), gills, tracheal (air tubes), or book lungs; – Tracheal tubes—carry oxygen to the muscles ...

Chapter 16: Cardiovascular System

... highest blood pressure; thickest blood vessels; contain a layer of smooth muscle vein—carry blood to the heart; contains valves; contain a layer of smooth muscle; example = superior/inferior vena cava capillary—smallest vessels; connect arteries and veins; one cell layer thick 2. similarities and di ...

Blood - Cloudfront.net

... • Healthy red blood cells last between 90 and 120 days. Parts of your body then remove old blood cells. A hormone called erythropoietin made in your kidneys signals your bone marrow to make more red blood cells. • Hemoglobin is the oxygen-carrying protein inside red blood cells. It gives red blood c ...

Animal Anatomy and Physiology- Excretory System

... Excretory Systems 1. Filtration ...

Unit Vocabulary List

... Nerves – tissue made from neurons that form the paths of communication between our body cells and brain Brain – the organ that controls thought and the functions of all the other parts of the body Spinal cord – the nervous tissue that begins at the brain and runs lengthwise along the back inside the ...

click here for a powerpoint presentation on the circulatory and

... arterial system, delivering oxygen and nutrients as it goes. Deoxygenated blood (inc waste products such as carbon dioxide) returns to heart via venous system and is pumped back to lungs to pick up more oxygen. ...

The Human Body – Study Guide Part 1

... _____________________________________________________________ _____________________________ 3. Where and how does digestion begin? ________________________________________________ _____________________________________________________________ ______________________________ 4. In which part of the bo ...

Unit 3 Power point

...  As blood flows through the capillaries, oxygen is dissolved, nutrients diffuse through the capillary walls and into your body’s cells.  Always for the exchange of nutrients ...

Title: Human Body Date

... C. Subcutaneous layers D. Endodermis 53. The layer(s) of skin that primarily functions to absorb shock and insulate the body is known as – A. Epidermis B. Dermis C. Subcutaneous layers D. Endodermis 54. The major functions of the skin include all of the following except – A. Protection and water bal ...

4 Skills Crucial to Critical Thinking are

... the total body weight of an adult.  It is involved in many of the physical and physiological process of the body.  Fluctuations in the amount of water in the body can have harmful and even fatal ...

Basic Nursing: Foundations of Skills and Concepts Chapter

... the total body weight of an adult.  It is involved in many of the physical and physiological process of the body.  Fluctuations in the amount of water in the body can have harmful and even fatal ...

Vocabulary for Human Body Systems

... -peripheral nervous system: lies outside the brain and spinal cord and includes nerves to arms, legs, and sense organs -relay: to transmit a signal -signals: messages sent from the brain to nerves -spinal cord: cord of nerve tissue extending through the spinal column and protected by the vertebrae o ...

cardiovascular-system

Human Physiology

... • After birth the bone marrow is the source of erythrocytes. • Initially, the bone marrow of every bone produces erythrocytes, with time that is narrowed to membranous bones. Guyton’s Textbook of Medical Physiology 32-1 ...

The Body In Motion

... arterial system and the cells of the body; for example, the muscle cells. Here, oxygen is unloaded to the cells while carbon dioxide resulting from cell metabolism is given up to the blood. Blood that is high in carbon dioxide content (deoxygenated blood) is carried back to the lungs where it unload ...

BIPN100 F15 Human Physiology (Kristan) Problem Set #8 Solutions

... b. When blood volume drops, venous return to the right heart drops, decreasing the secretion of atrial natriuretic hormone (ANH). The decreased ANH causes more Na+ reabsorbtion in the collecting duct, causing more water reabsorption. This hormonal reflex helps to decrease water loss in the urine, th ...

Ch.37 - Jamestown School District

... • Bronchi - 2 large passageways in the chest cavity, each leads into 1 of the lungs • Inside the lungs, the bronchi divide into even smaller tubes, called bronchioles • Alveoli - tiny air sacs at the ends of the bronchioles, where gas exchange takes place ...

6.2, 6.4, H.5, H.6 KEY Summative Test 2014

... Carbon dioxide is carried in three forms in the blood;  First, carbon dioxide can be dissolved in the blood / plasma;  Second, carbon dioxide is carried as dissociated carbonic acid / H2CO3 / H+H2 CO3–;  Third, carbon dioxide is carried as carbaminohemoglobin / bound to hemoglobin;  There is carboni ...

Circulatory system

... the elastic fibres allow the artery to stretch under pressure ...

Circulatory System2

... so that when they contract to move the body, they also squeeze the veins and push the blood along the vessel. ...

BIOLOGY FINAL EXAM REVIEW PACKET

... Be able to label the parts of the human excretory system. Know the diagram of the kidneys (Bowman’s Capsule; Glomerulus, Loop of Henle) ...

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Homeostasis

Homeostasis or homoeostasis (homeo- + -stasis) is the property of a system in which variables are regulated so that internal conditions remain stable and relatively constant. Examples of homeostasis include the regulation of temperature and the balance between acidity and alkalinity (pH). It is a process that maintains the stability of the human body's internal environment in response to changes in external conditions.The concept was described by French physiologist Claude Bernard in 1865 and the word was coined by Walter Bradford Cannon in 1926. Although the term was originally used to refer to processes within living organisms, it is frequently applied to automatic control systems such as thermostats. Homeostasis requires a sensor to detect changes in the condition to be regulated, an effector mechanism that can vary that condition, and a negative feedback connection between the two.

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Homeostasis