Laboratory Manual for Human Anatomy & Physiology: A Hands-on Approach, Cat Version, 1st edition

Published by Pearson (March 6, 2020) © 2021

  • Melissa Greene Northwest Mississippi Community College
  • Robin Robison Northwest Mississippi Community College
  • Lisa Strong Northwest Mississippi Community College

eTextbook

per month

  • Anytime, anywhere learning with the Pearson+ app
  • Easy-to-use search, navigation and notebook
  • Simpler studying with flashcards
$69.32

  • Hardcover, paperback or looseleaf edition
  • Affordable rental option for select titles

Mastering

$94.99

  • Activate learning for future scientists
  • Tailor your course to fit your needs
  • Support students with guided practice

For the 2-semester A&P laboratory course.

A hands-on, integrated A&P lab manual

Laboratory Manual for Human Anatomy & Physiology: A Hands-on Approach provides pre-lab, lab and post-lab activities, over 100 specially-commissioned anatomical model photos and over 50 robust lab videos at an affordable price. The straightforward, step-by-step activities include concise background information and feature anatomical models and cadavers.

The lab manual uses terminology and artwork from Erin Amerman's Human Anatomy & Physiology text but can also accompany any A&P text. Available in 3 versions (Main, Cat, Pig), the Cat and Pig versions respectively include 7 cat and 9 pig dissection exercises.

Hallmark features of this title

Engage and prepare students for success

  • Pre-lab Assignments include coloring, drawing, labeling and lab videos, providing a variety of learning modes to prepare students for lab.
  • Post-lab Assessments conclude each exercise for the lab activity.
  • Apply What You Learned higher-level application questions challenge students to apply concepts they've learned in the lab to clinical scenarios and real-life situations.
  • Over 50 lab videos and animations in select pre-lab and lab activities review key A&P concepts and lab procedures.

A hands-on experience

  • Over 100 specially commissioned anatomical model photos help students identify and locate key anatomical structures and landmarks.
  • Side-by-side photos of cadavers and anatomical models allow for easy visual comparison.

Features of Mastering A&P for the 1st Edition

  • 6 Lab Assistant Videos feature the authors introducing select lab activities and reviewing key concepts for the lab. Topics include: Laboratory Safety (Ex 1), Identifying the Stages of Mitosis Using a Compound Light Microscope (Ex 3), Naming Muscles (Ex 9), Build a Muscle" (Ex 9), Using Blood Flow to Identify Major Structures of the Heart (Ex 17), Ankle-Brachial Index Demonstration (Ex 18).
  • 18 Pre-Lab videos and activities introduce lab procedures, including using a microscope, recording ECGs, auscultating heart sounds, palpating the superficial pulse points, operating the model lung and more.
  • 165 Pre- and Post-Lab reading questions and activities from the laboratory manual are assignable in Mastering A&P.
  • 127 Apply What You Learn reading questions from the manual help students prepare for the lab and are assignable in Mastering A&P.
  • Practice Anatomy Lab (PAL) 4.0 is a virtual anatomy study and practice tool that provides students 24/7 access to the most widely used lab specimens including human cadaver, histology, cat, fetal pig, 3D and anatomical models. PAL 4.0 includes built-in audio pronunciations, mobile friendly flashcards, and multiple choice and fill-in-the blank lab practical quizzes. Questions with images from PAL can be assigned and automatically graded in the Mastering A&P Item Library.
  • Cat and Fetal Pig Dissection Video Coaching Activities help students prepare for dissection by previewing key anatomical structures. Each video includes 12 comparisons to human structures.

Features of Pearson eText for the 1st Edition

  • Over 100 specially commissioned photos of anatomical models help students identify and locate key anatomical structures and landmarks.
  • Side-by-side photos of cadavers and anatomical models for easy visual comparison.
  • 6 Lab Assistant Videos feature the authors introducing select lab activities and reviewing key concepts, including: Laboratory Safety (Ex 1), Identifying the Stages of Mitosis Using a Compound Light Microscope (Ex 3), Naming Muscles (Ex 9), Build a Muscle" (Ex 9), Using Blood Flow to Identify Major Structures of the Heart (Ex 17), Ankle-Brachial Index Demonstration (Ex 18).
  • Pre-Lab videos and activities introduce lab procedures including using a microscope, recording ECGs, auscultating heart sounds, palpating the superficial pulse points, operating the model lung and more.
  • Embedded videos and animations include:
    • Bone and Organ Dissection Videos cover major bone and organ dissections; A&P Flix Animations are 3D movie-quality animations that help students visualize joint movements and origins, insertions, actions, and innervations; Cat and Fetal Pig Dissection Videos help students prepare for cat and pig dissection labs; and Interactive Physiology 2.0 helps students advance beyond memorization to a genuine understanding of complex physiological processes.

Lab Exercise 1: Introduction to Anatomy and Physiology

  • 1A Laboratory Safety
  • Procedure: Observing and Applying Laboratory Safety Rules
  • 1B The Scientific Method
  • Procedure: Using the Scientific Method to Compare Arm Span and Height
  • 1C Human Body Systems
  • Procedure: Identifying the Human Body Systems, Organs, and Functions
  • 1D Anatomical Position and Directional Terminology
  • Procedure: Demonstrating Anatomical Position and Using Directional Terminology
  • 1E Regional Terminology
  • Procedure: Using Regional Terminology to Describe Areas of the Body
  • 1F Planes of Section
  • Procedure: Identifying Planes of Section
  • 1G Body Cavities, Abdominopelvic Quadrants, Abdominopelvic Regions, and Serous Membranes
  • Procedure 1: Identifying Major Organs within Body Cavities and Abdominopelvic Quadrants and Regions
  • Procedure 2: Understanding the Structure of Serous Membranes

Lab Exercise 2: The Chemistry of Life

  • 2A The Periodic Table, Atomic Structure, and Chemical Bonds
  • Procedure 1: Using the Periodic Table to Determine Atomic Number, Atomic Mass, and Number of Subatomic Particles
  • Procedure 2: Using the Periodic Table to Draw Atomic Structure
  • Procedure 3: Drawing Chemical Bonds
  • 2B Enzymes
  • Procedure: Determining Enzyme-Substrate Specificity of Lactase on Lactose, Sucrose, and Maltose
  • 2C pH
  • Procedure: Determining the pH of Various Household Chemicals
  • 2D Organic Molecules
  • Procedure 1: Testing for the Presence of Monosaccharaides and Disaccharides
  • Procedure 2: Testing for the Presence of Starch
  • Procedure 3: Testing for the Presence of Peptides and Proteins
  • Procedure 4: Testing for the Presence of Lipid
  • Procedure 5: Determining the Chemical Composition of Various Foods
  • Procedure 6: Extracting Human DNA from Cheek Cells

Lab Exercise 3: The Cell

  • 3A Microscopy
  • Procedure 1: Exploring the Parts of a Compound Light Microscope
  • Procedure 2: Calculating Total Magnification
  • Procedure 3: Focusing a Compound Light Microscope
  • Procedure 4: Estimating the Diameter of the Microscope Field
  • Procedure 5: Determining Depth of Field
  • Procedure 6: Working with a Dissecting Microscope
  • 3B Cell Structure
  • Procedure 1: Identifying Cellular Organelles and Structures
  • Procedure 2: Preparing a Wet Mount and Observing Cheek Cells
  • Procedure 3: Observing Various Types of Cells
  • 3C Membrane Function
  • Procedure 1: Examining the Effects of Temperature on the Rate of Diffusion
  • Procedure 2: Observing Diffusion across a Selectively Permeable Membrane
  • Procedure 3: Examining the Effect of Tonicity on Osmosis
  • Procedure 4: Examining the Effects of Particle Size on Filtration
  • 3D The Cell Cycle
  • Procedure: Identifying the Stages of the Cell Cycle and Mitosis
  • 3E PhysioExâ„¢ Activities
  • PEx Activity 1: Simulating Dialysis (Simple Diffusion)
  • PEx Activity 2: Simulated Facilitated Diffusion
  • PEx Activity 3: Simulating Osmotic Pressure
  • PEx Activity 4: Simulating Filtration
  • PEx Activity 5: Simulating Active Transport

Lab Exercise 4: Histology

  • 4A Epithelial Tissue
  • Procedure: Examining Epithelial Tissue
  • 4B Connective Tissue
  • Procedure: Examining Connective Tissues
  • 4C Muscle Tissue
  • Procedure: Examining Muscle Tissue
  • 4D Nervous Tissue
  • Procedure: Examining Nervous Tissue

Lab Exercise 5: The Integumentary System

  • 5A The Skin
  • Procedure 1: Identifying Layers and Structures of the Skin
  • Procedure 2: Identifying Fingerprint Patterns
  • 5B Accessory Structures
  • Procedure 1: Examining Hair Structure
  • Procedure 2: Examining Nail Structure
  • Procedure 3: Comparing Skin Glands

Lab Exercise 6: Bones and Bone Tissue

  • 6A Gross Anatomy of Bone
  • Procedure 1: Identifying Bones Based on Shape
  • Procedure 2: Identifying the Parts of a Typical Long Bone
  • 6B Microscopic Bone Structure
  • Procedure 1: Examining Microscopic Structure of Bone
  • Procedure 2: Examining Bone Matrix

Lab Exercise 7: The Skeletal System

  • 7A Overview of the Skeletal System
  • Procedure 1: Identifying Major Bones of the Skeletal System
  • Procedure 2: Understanding Terminology Associated with Bone Markings
  • 7B The Skull
  • Procedure 1: Identifying the Bones and Bone Markings of the Adult Skull
  • Procedure 2: Examining the Fetal Skull
  • 7C The Vertebral Column and Thoracic Cage
  • Procedure 1: Identifying the Bones and Bone Markings of the Vertebral Column
  • Procedure 2: Identifying the Bones and Bone Markings of the Thoracic Cage
  • 7D The Pectoral Girdle and Upper Limb
  • Procedure 1: Identifying the Bones and Bone Markings of the Pectoral Girdle and Upper Limb
  • 7E The Pelvic Girdle and Lower Limb
  • Procedure: Identifying the Bones and Bone Markings of the Pelvic and Lower Limb

Lab Exercise 8: Articulations

  • 8A Classifications of Joints
  • Procedure 1: Identifying Joints
  • Procedure 2: Identifying the Components of a Synovial Joint
  • 8B Synovial Joints
  • Procedure 1: Classifying Synovial Joints
  • Procedure 2: Demonstrating Synovial Joint Movements
  • Procedure 3: Examining the Elbow, Knee, Shoulder, and Hip Joints

Lab Exercise 9: The Muscular System

  • 9A Overview of Skeletal Muscles
  • Procedure: Identifying the Major Skeletal Muscles
  • 9B Muscles of the Head, Neck, and Trunk
  • Procedure: Identifying the Muscles of the Head, Neck, and Trunk
  • 9C Muscles That Move the Pectoral Girdle and Upper Limb
  • Procedure: Identifying the Muscles That Move the Pectoral Girdle and Upper Limb
  • 9D Muscles of the Pelvic Girdle and Lower Limb
  • Procedure: Identifying the Muscles of the Pelvic Girdle and Lower Limb
  • 9E Build a Muscle
  • Procedure: Build a Muscle

Lab Exercise 10: Muscle Tissue and Physiology

  • 10A Overview of Muscle Tissue
  • Procedure: Identifying the Three Types of Muscle Tissue
  • 10B Structure and Function of Skeletal Muscle Fibers
  • Procedure: Identifying the Structures of a Skeletal Muscle Fiber
  • 10C Skeletal Muscle Contraction and Relaxation
  • Procedure 1: Understanding Skeletal Muscle Contraction and Relaxation
  • Procedure 2: Observing Skeletal Muscle Contraction Using Glycerinated Muscle
  • 10D Isotonic and Isometric Contractions
  • Procedure: Demonstrating Isotonic and Isometric Contractions
  • 10E Muscle Fatigue
  • Procedure: Demonstrating Muscle Fatigue
  • 10F PhysioExâ„¢ Activities
  • PEx Activity 1: The Muscle Twitch and the Latent Period
  • PEx Activity 2: The Effect of Stimulus Voltage on Skeletal Muscle Contraction
  • PEx Activity 3: The Effect of Stimulus Frequency on Skeletal Muscle Contraction
  • PEx Activity 4: Tetanus in Isolated Skeletal Muscle
  • PEx Activity 5: Fatigue in Isolated Skeletal Muscle
  • PEx Activity 6: Skeletal Muscle Length-Tension Relationship
  • PEx Activity 7: Isotonic Contractions and the Load-Velocity Relationship

Lab Exercise 11: Introduction to the Nervous System and Nervous Tissue

  • 11A Nervous Tissue
  • Procedure 1: Identifying the Components of Nervous Tissue
  • Procedure 2: Exploring the Anatomy of Neurons and Neuroglia
  • 11B Electrophysiology of Neurons
  • Procedure: Understanding Electrophysiology of Neurons
  • 11C Neuronal Synapses
  • Procedure 1: Comparing Electrical and Chemical Synapses
  • Procedure 2: Understanding Chemical Synaptic Transmission
  • 11D PhysioExâ„¢ Activities
  • PEx Activity 1: The Resting Membrane Potential
  • PEx Activity 2: Receptor Potential
  • PEx Activity 3: The Action Potential: Threshold
  • PEx Activity 4: The Action Potential: Importance of Voltage-Gated Na+ Channels
  • PEx Activity 5: The Action Potential: Measuring Its Absolute and Relative Refractory Periods
  • PEx Activity 6: The Action Potential: Coding for Stimulus Intensity
  • PEx Activity 7: The Action Potential: Conduction Velocity
  • PEx Activity 8: Chemical Synaptic Transmission and Neurotransmitter Release
  • PEx Activity 9: The Action Potential: Putting It All Together

Lab Exercise 12: The Central Nervous System

  • 12A The Brain
  • Procedure 1: Identifying the Major Structures of the Human Brain and Their Functions
  • Procedure 2: Dissecting a Preserved Sheep Brain
  • 12B The Spinal Cord
  • Procedure: Examining Spinal Cord Anatomy
  • 12C Electroencephalography
  • Procedure: Recording an EEG and Identifying Brain Waves

Lab Exercise 13: The Peripheral Nervous System

  • 13A Cranial Nerves
  • Procedure 1: Identifying the Cranial Nerves and Their Functions
  • Procedure 2: Testing the Response of Cranial Nerves
  • Procedure 3: Identifying Cranial Nerves on a Preserved Sheep Brain
  • 13B Spinal Nerves
  • Procedure: Identifying the Spinal Nerves and Their Functions
  • 13C Sensation
  • Procedure 1: Identifying Sensory Receptors in the Skin
  • Procedure 2: Determining the Size of a Receptive Field
  • 13D Reflexes
  • Procedure: Demonstrating Reflex Arcs

Lab Exercise 14: The Autonomic Nervous System and Homeostasis

  • 14A Anatomy of the ANS
  • Procedure: Identifying Components of the Autonomic Nervous System
  • 14B Physiology of the ANS
  • Procedure: Examining the Effect of Stress on the ANS

Lab Exercise 15: The Special Senses

  • 15A Overview of the Special Senses
  • Procedure: Identifying Stimuli Detected and Special Sense Receptors Used
  • 15B Olfaction and Gustation
  • Procedure 1: Examining the Structures of Olfaction and Gustation
  • Procedure 2: Examining the Relationship between Smell and Taste
  • 15C Anatomy of the Eye
  • Procedure 1: Examining the Structures of the Eye
  • Procedure 2: Dissecting the Preserved Eye
  • 15D Visual Tests and Demonstrations
  • Procedure 1: Performing the Visual Acuity Test Using the Snellen Eye Chart
  • Procedure 2: Conducting an Astigmatism Test
  • Procedure 3: Performing the Near Point of Accommodation Test
  • Procedure 4: Testing for Color Blindness
  • Procedure 5: Demonstrating the Pupillary Reflex
  • Procedure 6: Demonstrating a Blind Spot
  • 15E Anatomy of the Ear
  • Procedure: Examining the Structures of the Ear
  • 15F Hearing and Equilibrium Tests
  • Procedure 1: Performing the Auditory Acuity Test
  • Procedure 2: Performing the Sound Localization Test
  • Procedure 3: Performing the Weber Test
  • Procedure 4: Performing the Rinne Test
  • Procedure 5: Performing the Bárány Test
  • Procedure 6: Performing the Romberg Test

Lab Exercise 16: The Endocrine System

  • 16A Overview of the Endocrine System
    Procedure: Understanding the Endocrine System
  • 16B Anatomy of the Endocrine System
  • Procedure 1: Examining the Anatomy of the Hypothalamus, Pituitary, and Pineal Glands
  • Procedure 2: Examining the Anatomy of the Thyroid, Parathyroid, and Thymus
  • Procedure 3: Examining the Anatomy of the Pancreas
  • Procedure 4: Examining the Anatomy of the Adrenal Glands
  • Procedure 5: Examining the Anatomy of the Gonads
  • 16C PhysioExâ„¢ Activities
  • PEx Activity 1: Metabolism and Thyroid Hormone
  • PEx Activity 2: Plasma Glucose, Insulin, and Diabetes Mellitus
  • PEx Activity 3: Hormone Replacement Therapy
  • PEx Activity 4: Measuring Cortisol and Adrenocorticotropic Hormone

Lab Exercise 17: The Cardiovascular System I: The Heart

  • 17A Structure of the Heart
  • Procedure 1: Identifying the Anatomy of the Heart
  • Procedure 2: Dissecting a Preserved Heart
  • 17B Blood Flow Pathway through the Heart
  • Procedure: Tracing the Pathway of Blood through the Heart
  • 17C Cardiac Muscle Tissue
  • Procedure: Identifying the Components of Cardiac Muscle Tissue
  • 17D The Cardiac Cycle
  • Procedure 1: Recording Electrical Activity in the Heart
  • Procedure 2: Auscultating Heart Sounds
  • 17E PhysioExâ„¢ Activities
  • PEx Activity 1: Investigating the Refractory Period of Cardiac Muscle
  • PEx Activity 2: Examining the Effect of the Vagus Nerve Stimulation
  • PEx Activity 3: Examining the Effect of Temperature on Heart Rate
  • PEx Activity 4: Examining the Effect of Chemical Modifiers on Heart Rate
  • PEx Activity 5: Examining the Effects of Various Ions on Heart Rate

Lab Exercise 18: The Cardiovascular System II: The Blood Vessels

  • 18A Blood Vessel Anatomy
  • Procedure: Identifying Blood Vessels and Their Anatomy
  • 18B Major Arteries and Veins
  • Procedure 1: Identifying Major Arteries and Veins
  • Procedure 2: Blood Flow Tracing
  • 18C Pulse Palpation and Pulse Rate
  • Procedure: Palpating Pulse and Calculating Pulse Rate Before and After Exercise
  • 18D Arterial Blood Pressure
  • Procedure: Measuring Blood Pressure Before and After Exercise
  • 18E Ankle-Brachial Index
  • Procedure: Determining the Ankle-Brachial Index Using a Doppler Ultrasound Device
  • 18F PhysioExâ„¢ Activities
  • PEx Activity 1: Studying the Effect of Blood Vessel Radius on Blood Flow Rate
  • PEx Activity 2: Studying the Effect of Blood Viscosity on Blood Flow Rate
  • PEx Activity 3: Studying the Effect of Blood Vessel Length on Blood Flow Rate
  • PEx Activity 4: Studying the Effect of Blood Pressure on Blood Flow Rate
  • PEx Activity 5: Studying the Effect of Blood Vessel Radius on Pump Activity
  • PEx Activity 6: Studying the Effect of Stroke Volume on Pump Activity
  • PEx Activity 7: Compensation in Pathological Cardiovascular Conditions

Lab Exercise 19: Blood

  • 19A Formed Elements of Blood
  • Procedure 1: Identifying the Formed Elements of Blood
  • Procedure 2: Performing a Differential White Blood Cell Count
  • 19B Blood Disorders
  • Procedure 1: Identifying Blood Disorders and Parasitic Infections
  • Procedure 2: Identifying Vessel Abnormalities and Blood Clots
  • 19C Blood Typing
  • Procedure 1: Determining Blood Types Using Simulated Blood
  • Procedure 2: Determining Blood Type Compatibility
  • 19D PhysioExâ„¢ Activities
  • PEx Activity 1: Hematocrit Determination
  • PEx Activity 2: Erythrocyte Sedimentation Rate
  • PEx Activity 3: Hemoglobin Determination
  • PEx Activity 4: Blood Typing
  • PEx Activity 5: Blood Cholesterol

Lab Exercise 20: The Lymphatic System and Immunity

  • 20A Overview of the Lymphatic System
  • Procedure 1: Identifying the Tissues and Organs of the Lymphatic System
  • Procedure 2: Tracing Lymph Flow
  • Procedure 3: Examining a Lymphatic Vessel
  • 20B Anatomy of the Lymphatic System
  • Procedure: Examining Lymphatic Tissue and Organs
  • 20C Immunity
  • Procedure: Testing for the Presence of the Zika Virus Using a Simulated ELISA Kit
  • 20D PhysioExâ„¢ Activities
  • PEx Activity 1: Using Direct Fluorescent Antibody Technique to Test for Chlamydia
  • PEx Activity 2: Comparing Samples with Ouchterlony Double Diffusion
  • PEx Activity 3: Indirect Enzyme-Linked Immunosorbent Assay (ELISA)
  • PEx Activity 4: Western Blotting Technique

Lab Exercise 21: The Respiratory System

  • 21A Overview of the Respiratory System
  • Procedure: Identifying the Organs of the Respiratory System
  • 21B Anatomy of the Respiratory System
  • Procedure 1: Examining the Structures and Organs of the Upper Respiratory System
  • Procedure 2: Examining the Structures and Organs of the Lower Respiratory System
  • Procedure 3: Comparing Healthy Lung Tissue to Damaged Lung Tissue
  • 21C Pulmonary Ventilation
  • Procedure 1: Understanding Pulmonary Ventilation
  • Procedure 2: Using a Handheld Spirometer
  • 21D Control of Breathing
  • Procedure: Demonstrating How Various Factors Affect Breathing
  • 21E PhysioExâ„¢ Activities
  • PEx Activity 1: Measuring Respiratory Volumes and Calculating Capacities
  • PEx Activity 2: Comparative Spirometry
  • PEx Activity 3: Effect of Surfactant and Intrapleural Pressure on Respiration

Lab Exercise 22: The Digestive System

  • 22A Overview of the Digestive System
  • Procedure 1: Identifying the Organs of the Digestive System
  • Procedure 2: Examining the Histology of the Alimentary Canal
  • 22B Anatomy of the Digestive System
  • Procedure 1: Examining the Oral Cavity and Pharynx
  • Procedure 2: Examining the Esophagus and Stomach
  • Procedure 3: Examining the Intestines
  • Procedure 4: Examining the Accessory Organs of the Digestive System
  • 22C Nutrient Digestion
  • Procedure 1: Investigating Amylase Activity
  • Procedure 2: Investigating Pepsin Activity
  • Procedure 3: Investigating Lipase Activity
  • 22D PhysioExâ„¢ Activities
  • PEx Activity 1: Assessing Starch Digestion by Salivary Amylase
  • PEx Activity 2: Exploring Amylase Substrate Specificity
  • PEx Activity 3: Assessing Pepsin Digestion of Protein
  • PEx Activity 4: Assessing Lipase Digestion of Fat

Lab Exercise 23: Metabolism and Nutrition

  • 23A Overview of Metabolism
  • Procedure: Examining the Effects of Exercise on Cellular Respiration
  • 23B Nutrition and Body Mass
  • Procedure 1: Calculating Metabolic Rate
  • Procedure 2: Calculating Body Mass Index

Lab Exercise 24: The Urinary System

  • 24A Overview of the Urinary System
  • Procedure: Identifying Organs of the Urinary System
  • 24B Anatomy of the Urinary System
  • Procedure 1: Examining the Anatomy of the Kidney
  • Procedure 2: Dissecting a Preserved Kidney
  • Procedure 3: Identifying the Blood Vessels of a Kidney
  • Procedure 4: Identifying the Components of a Nephron
  • Procedure 5: Examining the Anatomy of the Urinary Tract
  • 24C Physiology of the Urinary System
  • Procedure 1: Understanding the Big Picture of Renal Physiology
  • Procedure 2: Tracing the Flow of Fluid through the Urinary System
  • Procedure 3: Performing a Urinalysis
  • 24D PhysioExâ„¢ Activities
  • PEx Activity 1: The Effect of Arteriole Radius on Glomerular Filtration
  • PEx Activity 2: The Effect of Pressure on Glomerular Filtration
  • PEx Activity 3: Renal Response to Altered Blood Pressure
  • PEx Activity 4: Solute Gradients and Their Impact on Urine Concentration
  • PEx Activity 5: Reabsorption of Glucose via Carrier Proteins
  • PEx Activity 6: The Effect of Hormones on Urine Formation

Lab Exercise 25: Fluid, Electrolyte, and Acid-Base Homeostasis

  • 25A Homeostasis
  • Procedure: Examining the Effects of Buffers
  • 25B PhysioExâ„¢ Activities
  • PEx Activity 1: Hyperventilation
  • PEx Activity 2: Rebreathing
  • PEx Activity 3: Renal Responses to Respiratory Acidosis and Respiratory Alkalosis
  • PEx Activity 4: Respiratory Responses to Metabolic Acidosis

Lab Exercise 26: The Reproductive System

  • 26A Anatomy of the Male Reproductive System
  • Procedure 1: Examining Male Reproductive System Organs and Structures
  • Procedure 2: Tracing Sperm from Production to Ejaculation
  • 26B Anatomy of the Female Reproductive System
  • Procedure: Examining Female Reproductive Organs and Structures
  • 26C Physiology of the Reproductive Systems
  • Procedure 1: Identifying the Stages of Meiosis
  • Procedure 2: Examining Sperm
  • Procedure 3: Understanding Hormonal Regulation of the Ovarian and Uterine Cycles
  • Procedure 4: Examining Ovarian Follicles

Lab Exercise 27: Human Development

  • 27A Overview of Human Development
  • Procedure: Identifying Events during Prenatal Development
  • 27B Pregnancy and Childbirth
  • Procedure: Identifying Events during Childbirth

Cat Dissection Exercises

  1. The Muscular System of the Cat
  2. The Spinal Nerves of the Cat
  3. The Respiratory System of the Cat
  4. The Digestive System of the Cat
  5. The Cardiovascular System of the Cat
  6. The Urinary System of the Cat
  7. The Reproductive System of the Cat

Pig Dissection Exercises

  1. Examining Surface Anatomy and Preparing the Fetal Pig for Dissection
  2. Skeletal Muscles of the Fetal Pig
  3. Spinal Cord and Spinal Nerves of the Fetal Pig
  4. Endocrine System of the Fetal Pig
  5. Cardiovascular System of the Fetal Pig
  6. Digestive System of the Fetal Pig
  7. Respiratory System of the Fetal Pig
  8. Urinary System of the Fetal Pig
  9. Reproductive System of the Fetal Pig</p

About our authors

Melissa L. Greene is the Biology Department Chair at Northwest Mississippi Community College in Senatobia, MS. She earned her B.S. degree in biology from Christian Brothers University in Memphis, TN and her M.S. in life science from the University of Maryland. Her primary research focus was neuroanatomy, which she conducted at the University of Tennessee Health Science Center. With 16 years of college teaching experience, Melissa has extensive experience teaching Anatomy and Physiology lecture and labs, Introductory Biology for non-majors, and Biology for majors both in the classroom and via an online forum. In addition, she advises students interested in pursuing careers in biology and the health professions. She is a member of the Human Anatomy and Physiology Society (HAPS) and the Mississippi Academy of Sciences. Melissa is on the board of the Northwest Faculty Association where she serves as Vice President. When not writing or teaching, she enjoys spending time with her family and traveling. Melissa actively supports the Memphis Oral School for the Deaf where her niece was a student for four years.

Robin H. Robison is in his twenty-ninth year of teaching Anatomy and Physiology at Northwest Mississippi Community College. He is finishing his fifth as the Director of Science Instruction for NWCC. Robin was the recipient of the 1997 Lamplighter Award for Excellence in teaching at NWCC. He also received the Tate County Educator of the year award in 1998. Robin is currently developing and teaching Biology courses for NWCC's eLearning department. Robin's teaching style is very engaging and never boring. He inserts practical stories into his lecture that help the students relate to and understand the material. Robin is a product of the community college system receiving his AA degree in biology from Northeast Mississippi Community College. He received his BA and MS degrees in Biology from the University of Mississippi. Robin is a member of the Human Anatomy and Physiology Society.

Lisa C. Strong is a full time instructor at Northwest Mississippi Community College. She also began her own college career at Northwest before transferring to Delta State University where she received her B.S. in Biology Education. She earned her Master's Degree from the University of Mississippi in the spring of 2003. She has taught courses in Human Anatomy and Physiology, Microbiology, and General Biology for 15 years. She has always had a passion for teaching and tries to instill a love for the sciences in her students. She is constantly seeking ways to engage her students through the use of innovative technology in the classroom. She is a member of the Human Anatomy and Physiology Society.

Need help? Get in touch

Mastering

Engage science and engineering students. Mastering® is a flexible platform that supports the way science students learn best: through active, immersive experiences. With tutorials, real-time analytics, and hints and feedback, you can replicate an office-hours visit and prepare learners for the challenges of today and tomorrow.

Pearson+

All in one place. Pearson+ offers instant access to eTextbooks, videos and study tools in one intuitive interface. Students choose how they learn best with enhanced search, audio and flashcards. The Pearson+ app lets them read where life takes them, no wi-fi needed. Students can access Pearson+ through a subscription or their MyLab or Mastering course.

Video
Play
Privacy and cookies
By watching, you agree Pearson can share your viewership data for marketing and analytics for one year, revocable upon changing cookie preferences. Disabling cookies may affect video functionality. More info...

Build confidence and help every learner achieve more

With Mastering®, you can use your experiences to combine interactive resources and real-world examples, helping students master challenging material, and gain the confidence they need to succeed — both in and out of the classroom.