The human Body

... A: The increase in size is due to cell growth as well as the production of new cells via cell division. Food provides energy for this process to take place, but the increase in body mass is not due to the accumulation of food. Q: Do muscles push and pull? A: Not exactly. Muscles work only by contrac ...

Your heart pumps and circulates blood to every part of your body so

LARGE ANIMALS ANATOMY ORGAN SYSTEMS

... for excretion of metabolic waste products through urine and regulates the amount and composition of extracellular fluids. Kidneys are a pair organ having different shapes in different animals. Most animal species have bean-shaped kidneys, however, in horses we can find heart-shaped kidneys and in ca ...

Physiology Ch 15 p167-175 [4-25

... Transmission of Pressure Pulses to Peripheral Arteries – when heart ejects blood into aorta during systole, at first only proximal part of aorta becomes distended because inertia of blood prevents sudden blood movement all the way to the periphery -rising pressure in proximal aorta quickly overcome ...

Winston Knoll Collegiate

... 7. How is the mollusk shell made? It is made by glands in the mantle that secrete calcium carbonate. ...

Which pressures and where

... Experiment: Arterial pressure after heart arrest This is determining the filling of right ventricle = venous return kvs7e16.ppt ...

Section 27–4 Mollusks

2-3 Blood Clotting

... and water to form bicarbonate: CO2 + H20 -----------------> HCO3- + H+ This increased acidity serves a twofold purpose. First, protons lower the affinity of hemoglobin for oxygen, allowing easier release into the tissues. As all four oxygens are released, hemoglobin binds to two protons. This helps ...

Acid Base Balance - faculty at Chemeketa

... Considered the chemical sponge (too much H+ use a sponge to clean it up. Or, need more give it a squeeze) ...

Understanding Our Circulatory System

... 2. How did it smell? Where do you think this odor came from? __________________________________________________________ __________________________________________________________ __________________________________________________________ __________________________________________________________ 3. ...

chapter 22-the respiratory system

... 2. The amount of smooth muscle increases in the walls of the smaller passageways. VIII. THE LUNGS AND PLEURA-paired structures occupying much of the thoracic cavity. A. Each cone-shaped lung occupies its own pleural cavity. The lungs are surrounded by the rib cage externally and the diaphragm inferi ...

Respiratory - GEOCITIES.ws

... recruitment of unused capillaries During exercise – inc cardiac output and inc passage of blood through lings in order to not create backup on right side of heart – new capillaries will open to even out the pressures – will inc the amt of blood able to flow through and inc area available for gas exc ...

Chapter 10: Respiration During Exercise

... • Discuss the major transportation modes of O2 & CO2 in the blood • Discuss the effects of ↑ temp, & ↓ pH on the oxygen-hemoglobin dissociation curve • Describe the ventilatory response to constant load, steady-state exercise ...

Chapter 10: Respiration During Exercise Introduction

... • Discuss the effects of ↑ temp, & ↓ pH on the oxygen-hemoglobin dissociation curve • Describe the ventilatory response to constant load, steady-state exercise ...

Physiology MCQs

... the stress relaxation mechanism is one of the immediate responses angiotensin acts by increasing venous tone baroreceptors are activated over the course of hours the rennin angiotensin is vital in controlling the effect of excess Na+ intake renal responses precede capillary fluid shifts ...

cranium - Joomag

... is extremely strong (like skeletal muscles), unlike the visceral muscles in our organs. Cardiac muscle is found exclusively in the heart and its job is to pump blood throughout our whole body. Again, these muscles are involuntary – we cannot control them just by thinking about it. Although there are ...

Asthma - Baltimore City Public Schools

... d. Inform asthma patients about how to control this disease. ...

Chpt 27 Mollusks and Annelids - Phylum Mollusca o Are soft bodied

... • Ex) slow moving (or sessile) and small mollusks o Snails, slugs and clams 2 – Closed circulatory system – • Blood is in vessels • Has a heart to pump the blood o Blood goes in one direction Circuit o Ex) large and fast moving mollusks Ex) octopus, squid and cuttlefish Excretion – o Metabolic ...

Hematopoiesis

Invert Flip Note Packet

... flows swish sea water through the sponge. the water flows through, the Chonanocytes snag pieces of food.  Sponges do not have bones, yet they are hard. Sponges have tiny ...

June 2015 Question Paper 11

... reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity. To avoid the issue of disclosure of answer-related information ...

Chapter 22

... PPTs t/a Biology: An Australian focus 3e by Knox, Ladiges, Evans and Saint ...

Chapter 17: Respiratory, Cardiovascular and Excretory Systems

... 17.1 Effects of Smoke on the Respiratory System - Gas Exchange Why is O2 needed and where does CO2 come from?  Cells use ATP for energy.  ATP is made during cellular respiration  The molecular bonds in sugar molecules are broken to release energy, and the remaining carbons are given off as CO2  ...

body systems pages 422-429

... If one body system does not work properly, other body systems can be affected. For example, body cells that do not get enough energy or nutrients cannot work properly. A lack of food harms many systems and may cause disease or even death. The presence of toxins or pathogens also can disrupt homeosta ...

The Heart and Lungs The Heart and Lungs

... We call this circulation (from the word ‘circle’). ...

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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