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Unit 3, Day 11.

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Presentation on theme: "Unit 3, Day 11."— Presentation transcript:

1 Unit 3, Day 11

2 Try this activity Stand up and then lean forward as far as you can go without lifting your feet What was your body trying to do? Did you compensate with your arms? This is how we keep our balance externally; homeostasis is how your cells, tissues and organs keep balance internally

3 Homeostasis Homeo= same Stasis= standing
NBpg. 69 Homeostasis Page 8 Homeo= same Stasis= standing The body relies on homeostasis: the maintenance of relatively stable internal physiological conditions for metabolic balance. Animals use control systems, called negative feedback, to respond to and counteract change back into tolerable range. (Read Paragraphs 1-3)

4 Read Paragraph 4 Stimulus Body detects an increase in temperature
NBpg. 69 Read Paragraph 4 Page 8 Stimulus Body detects an increase in temperature Sensor Thermoreceptors in the skin send a message via nerve cells to the brain Control The message reaches the hypothalamus, and reacts to the info. Effector The nerves relay a message from the brain back to the skin to respond with a production of sweat Why would the response be sweat?

5 Homeostasis Article NBpg. 68 Page 8 Body Temperature
What is normal body temperature? When does muscle failure, loss of consciousness , and death occur? Calcium Levels: Explain the function of PTH. Explain the role of the thyroid gland.  Acid/Base Balance How do the kidneys balance acids and bases? How do the lungs balance acids and bases? Glucose Concentration: What does the body use to regulate glucose concentration? Explain the function of insulin, cortisol, glucagon and catecholamine.   Fluid Volume: What happens when the body doesn’t have enough fluid? Explain what happens when the body has too much fluid. Directions for Each Scenario: Determine the Negative Feedback loop: Stimulus Sensor Control Effector Answer the 2 questions Refer to TBpg Or research online.

6 6 1 2 7 3 4 8 5 9 5 Common Examples of Homeostasis in the Human Body
Acid-Base Balance The body controls the amounts of acids and bases in the blood. When the number of acidic compounds in the blood increases, body acidity also increases. This occurs when someone consumes or produces more acidic compounds or when the body fails to eliminate acidic compounds. When the number of alkaline compounds in the blood increases, body alkalinity increases. Acid-base balance refers to the balance between alkalinity and acidity in the blood, as measured on the pH scale. The kidneys and lungs, along with buffer systems, help control acid-base balance.   The kidneys excrete excess acids and bases. Kidney damage may reduce the ability of the kidneys to excrete these substances, leading to a disturbance in acid-base balance. The lungs control pH levels by excreting carbon dioxide. When a person exhales, the diaphragm pushes carbon dioxide out of the body. The pH of the blood changes when the depth and speed of breathing change, making it possible to adjust blood pH in less than a minute. Buffer systems prevent sudden changes in acidity and alkalinity. These systems consist of weak acids and weak bases that occur naturally in the human body. Glucose Concentration: Glucose concentration refers to the amount of glucose – blood sugar – present in the bloodstream. The body uses glucose as a source of energy, but too much or too little glucose in the bloodstream can cause serious complications. The body uses hormones to regulate glucose concentration. Insulin reduces glucose concentration, while cortisol, glucagon and catecholamines increase glucose concentration. Fluid Volume: The body has to maintain a constant internal environment, which means it must regulate the loss and gain of fluid. Hormones help to regulate this balance by causing the excretion or retention of fluid. If the body does not have enough fluid, antidiuretic hormone signals the kidneys to retain fluid and decrease urine output. If the body has too much fluid, it suppresses aldosterone and signals the excretion of more urine. 5 Common Examples of Homeostasis in the Human Body (written by: Leigh A. Zaykoski•edited by: Leigh A. Zaykoski•updated: 10/8/2014) Homeostasis refers to metabolic balance maintained by several processes. The human body has several examples of homeostasis. Learning about these processes makes it easier to understand how the body maintains its normal functions.   First, let's start with the definition of homeostasis: the maintenance of relatively stable internal physiological conditions (as body temperature or the pH of blood) in higher animals under fluctuating environmental conditions. There are several examples of homeostasis in the human body. Read on to learn how our bodies maintain a state of homeostasis in order to ensure our survival. Body Temperature One of the most common examples of homeostasis in humans is the regulation of body temperature. Normal body temperature is 37 degrees C or 98.6 degrees F. Temperatures way above or below these normal levels cause serious complications. Muscle failure occurs at a temperature of 28 degrees C or 82.4 degrees F. At 33 degrees C or 91.4 degrees F, loss of consciousness occurs. At a temperature of 42 degrees C or degrees F, the central nervous system starts to break down. Death occurs at a temperature of 44 degrees C or degrees Fahrenheit. The body controls temperature by producing heat or releasing excess heat. Calcium Levels: The bones and teeth contain approximately 99 percent of the calcium in the body, while the other 1 percent circulates in the blood. Too much calcium in the blood and too little calcium in the blood both have negative effects. If blood calcium levels decrease too much, the parathyroid glands activate their calcium-sensing receptors and release parathyroid hormone. PTH signals the bones to release calcium to increase the amount of calcium in the bloodstream. If calcium levels increase too much, the thyroid gland releases calcitonin and fixes more calcium in the bones. This decreases the amount of calcium in the blood. 6 7 8 9 1 2 3 4 5

7 Bottom of pg. 69 Reflection The most important concept I learned about homeostasis was ______________________ because ___________________________.

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