Final Exam Study Guide (Chapters 1-14) PDF

Summary

This document is a compiled study guide for chapters 1-14, likely for a biology final exam. It includes outlines for each chapter and associated questions.

Full Transcript

**[Chapter 1]**

1. 2. 3. 4. 5. 6. 7. 8.

**[Chapter 2]**

1. 2. 3. 4. 5. 6. 7. 8.

**[Chapter 3.1-3.3]**

1. 2. 3. 4. 5. 6. 7.

**[Chapter 3.4]**

1. 2. 3.

**[Chapter 4.1]**

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.

**[Chapter 5]**

1. 2. 3. 4. 5. 6. 7. 8. 9.

**[Chapter 6]**

1. 2. 3. 4. 5. 6. 7. 8. 9. 10.

**[From chapter 7 to chapter 13, these are the study guides we have
already used.]**

**[Be sure to review them because I have removed some bullet points from
the original study guides.]**

**[Chapter 7]**

**[7.1]**

· Know the primary organs of the skeletal system.

· Know the two types of bone connective tissue and what percentage each
contributes to total bone mass.

· Describe the different areas in the body that have hyaline cartilage

· Know where fibrocartilage can be found in the body

**[7.2]**

· Describe the tissues/organs protected by the skeletal system from the
PowerPoint slide

· Define hematopoiesis and where it occurs

· Know what two minerals are stored in the skeletal system

· Describe how short, flat, and irregular bones are different from long
bones

· Know the four different cell types in bone connective tissue

**[7.4]**

· Order the four steps of intramembranous ossification

**[7.5]**

· Know the five zones associated with interstitial growth

· Know what cells bone remodeling is dependent on

**[7.6]**

· Describe the order and molecules involved in the activation of vitamin
D to calcitriol

**[7.7]**

· Define osteoporosis

**[Chapter 8 - Review the quizlet terms.]**

**[9.1]**

· Define joints, arthrology

· Describe the three structural types of joints in the human body

· Describe the three functional types of joints in the human body

**[9.2]**

· Describe mobility of fibrous joints

· Describe the three types of fibrous joints

**[9.3]**

· Describe composition and mobility of cartilaginous joints

· Describe mobility and classification of synchondroses

· Describe functions of a symphysis (hint: shock absorber)

**[9.4]**

· Describe and give examples of synovial joints

· List the components in an articular capsule (outer/inner layer)

· List the functions of synovial fluid

· Define ligaments/tendons

· Describe uniaxial, biaxial, and multiaxial joints

· Describe and give an example of the ball and socket joint

**[9.7]**

· Describe the range of motion and stability of the glenohumeral joint

· Describe the type of joint and stability found in the elbow joint

· What joint is the largest and most complex?

· Describe the functions of the ACL and PCL

**[9.8]**

· When does joint development start?

· Define arthritis, osteoarthritis, and rheumatoid arthritis

**[10.1]**

· List the functions of skeletal muscle

· List the characteristics of skeletal muscle

**[10.2]**

· Describe the length of muscle cells within a skeletal muscle fiber

· Define myofibers

· Define fascicle

· Describe the composition and location of epimysium, perimysium, and
endomysium

· Describe the composition of tendons

· Is skeletal muscle vascularized?

· Is skeletal muscle innervated? By what?

· What is the junction between the axon and muscle fiber?

· Is skeletal muscle voluntary or involuntary?

· List the two types of filaments found in myofibril bundles

· What structure delineates a sarcomere?

· Define striations

· List the parts of the neuromuscular junction

· Define resting membrane potential and how it is established.

**[10.3]**

· In step 1a, what triggers calcium channels to open

· In step 1b, describe what happens when calcium ions bind to synaptic
vesicles... what is released?

· In step 1c, what causes the excitation of a muscle fiber

· In step 2a, define an end-plate potential (use the last bullet point
on slide 57)

· In step 2b, define depolarization and repolarization

· In step 3a, describe how calcium binding to globular troponin allows
for the binding sites of actin to be exposed

· In step 3c, define power stroke

· In steps 3d and 3e how is the myosin head released and reset (hint: it
has to do with ATP)

· Myofilaments do not shorten, they slide past each other. What is this
called? (hint: the word "theory" should be in your answer)

· What enzyme breaks down ACh?

**[10.7]**

· Define isometric contraction

· Define isotonic contraction

· Define muscle fatigue

**[Chapter 11 - Review quizlet terms.]**

**[12.1]**

· List the components of the nervous system

· List the primary tissue of the nervous system

· What functions do neurons accomplish? (slide 3)

· List the two functional divisions of the nervous system

· Describe the epineurium, perineurium, and endoneurium

· Define ganglion

· List the two types of cells that compose nervous tissue

· Describe dendrites and axon

**[12.2]**

· Define anterograde transport

· Define retrograde transport

· Describe the functional classes of neurons

**[12.3]**

· List the two types of synapses

· Define presynaptic neuron

· Define postsynaptic neuron

**[12.4]**

· Define glial cells/ their function

· List the four types of glial cells

· Which type of glial cells are the immune cells of the nervous system?

· Know what glial cell work with blood capillaries to form the choroid
plexus

· Define myelination, which glial cells go through process of
myelination

**[12.6]**

· Define pumps and channels

**[12.7]**

· Name the components of the receptive, initial, conductive, and
transmissive segment

· Most important ion (factor) in setting RMP

**[12.9]**

· How does the diameter of an axon affect nerve signal velocity?

· How does myelination affect nerve signal velocity?

**[13.1]**

· List the four major regions of the brain

· Define gyri

· Define sulci

· Define fissure

**[13.2]**

· List the structures that protect the brain

· List the 3 cranial meninges

· List the four ventricles

· Describe the functions of the blood-brain barrier (slide 23)

**[13.3]**

· Describe the function of the corpus callosum

· Describe the function of the primary motor cortex

**[13.4]**

· List the gland found in the epithalamus

· List the seven functions of the hypothalamus

**[13.5]**

· What component of the midbrain houses neurons that produce dopamine?

· List the two nerves that has nuclei housed in the cerebral aqueduct

**[13.6]**

· Describe the function of the superior, middle, and inferior peduncles

**[13.7]**

· Describe the functions of the olfactory bulbs, tracts, and cortex

· Describe the types of studies done using an electroencephalogram (EEG)

**[13.8]**

· Describe non-REM sleep

· Describe REM sleep

· Describe insomnia

· Describe the Wernicke area

**[14.1]**

· List the four continuous subdivisions of the spinal cord (slide 5)

· Describe the cervical and lumbosacral enlargements (slide 6)

**[14.2]**

· Where is the spinal cord housed? (slide 14)

· Be able to order the spinal cord meninges (slide 15)

· What is the dura mater composed of? What spaces are associated with
it? (slide 18)

**[14.3]**

· Describe the gray commissure (what it connects, what type of axons are
present) (slide 29)

· Describe the composition and function of white matter (slide 30)

**[14.4]**

· What is a conduction pathway? (slide 31)

· Distinguish between sensory (ascending) and motor (descending
pathways) (slide 32)

· Function of the medial lemniscal pathway (slide 37)

**[14.5]**

· List the nerve plexuses in the body (slide 44)

**[14.6]**

· Identify an innate or acquired reflex (slide 53)