2. Chapter 32 Integumentary, Skeletal,
and Muscular Systems
Section 1: The Integumentary System
Section 2: The Skeletal System
Section 3: The Muscular System

3. What is the purpose of skin?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
What is the purpose of skin?
What skin conditions can result from long-term exposure to the sun?
How does skin help the body cope with excess heat?

4. The Structure of the Skin
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
The Structure of the Skin
Skin - multilayered organ that covers and protects the body.

5. The outer top layer of skin is the epidermis.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
The Epidermis
The outer top layer of skin is the epidermis.
The outer layers of cells contain keratin, which waterproofs and protects the cells and tissues underneath.

6. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
The inner layer of skin
- contains cells that continually are dividing by mitosis to replace cells that are lost or die.
Some cells (melanocytes) in the inner layer of the epidermis provide protection from harmful ultraviolet radiation by making a pigment called melanin.

7. Directly beneath the epidermis is the dermis.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
The Dermis
Directly beneath the epidermis is the dermis.
The dermis - connective tissue, nerve cells, muscle fibers, sweat glands, oil glands, and hair follicles.
Below the dermis layer is the subcutaneous layer (hypodermis), a layer of connective tissue that stores fat and helps the body retain heat.

8. Both hair and nails contain keratin and develop from epithelial cells.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
Hair and Nails
Both hair and nails contain keratin and develop from epithelial cells.
Hair cells grow out of narrow cavities in the dermis called hair follicles.
Hair follicles have sebaceous glands around them that lubricate the skin and hair.

9. Functions of the Integumentary System
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
Functions of the Integumentary System
Temperature regulation – cooling and heating
Vitamin production – vitamin D
Protection and senses – 1st defense against bacteria, etc.
Senses of touch, temperature

10. Skin has remarkable abilities to repair itself.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
Damage to the Skin
Skin has remarkable abilities to repair itself.
Without skin’s ability to repair itself, the body would be invaded by microbes (bacteria) through breaks in the skin.

11. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
Cuts and Scrapes
Cells deep in the epidermis divide and replace the lost or injured cells.
When the injury is deep, blood vessels might be injured, resulting in bleeding.
Infection-fighting white blood cells will help get rid of any bacteria that might have entered the wound.

12. Chapter 32
Integumentary, Skeletal, and Muscular Systems

13. Effects of the Sun and Burns
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
Effects of the Sun and Burns
Burns, whether caused by the Sun, heat, or chemicals, are classified according to their severity.

14. 32.1 The Integumentary System
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System

15. Chapter 32
Integumentary, Skeletal, and Muscular Systems

16. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 The Integumentary System
Skin Cancer
Ultraviolet (UV) radiation can damage the DNA in skin cells, causing those cells to grow and divide uncontrollably.
There are two main categories of skin cancer: melanoma and non-melanoma.
ABCDE rule

17. Bone Dance Hannah Montana

18. Functions of the Skeletal System
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Functions of the Skeletal System
In addition to providing support for the body, bones act as a point of attachment for muscles to allow movement.
The skeletal system provides protection for organs and bone marrow.
Bones are reservoirs for the storage of minerals, such as calcium and phosphorus.

19. Chapter 32
Integumentary, Skeletal, and Muscular Systems

20. Structure of the Skeletal System
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Structure of the Skeletal System
Human skeleton has 2 divisions:
1 axial skeleton - skull, vertebral column, the ribs, and the sternum.
2 appendicular skeleton - bones of the shoulders, arms, hands, hips, legs, and feet.

21. Integumentary, Skeletal, and Muscular Systems

22. Compact and Spongy Bone
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Compact and Spongy Bone
Outer layers of all bones are made of compact bone.
Spongy bone is found at the center of short or flat bones, and at the end of long bones.

23. Red and white blood cells and platelets are made in red bone marrow.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
2 types of bone marrow:
Red and white blood cells and platelets are made in red bone marrow.
Yellow bone marrow is made of stored fat.

24. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Formation of Bone
During fetal development, cells in fetal cartilage develop into osteoblasts.
Osteoblasts are the cells responsible for the growth and repair of bones.

25. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Remodeling of Bone
Bones constantly are being remodeled, which means replacing old bone cells with new bone cells.
Cells called osteoclasts break down bone cells, which are then replaced by new bone tissue.

26. Bone breaks but does not come through the skin = simple fracture.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Repair of Bone
Bone breaks but does not come through the skin = simple fracture.
Compound fracture is one in which the bone protrudes through the skin.
A stress fracture is a thin crack in the bone.

27. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Fracture
A blood clot forms between the broken ends of the bone, and new bone begins to form.

28. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Callus Formation
Osteoblasts form a callus made of spongy bone that surrounds the fracture.
Osteoclasts remove the spongy bone while osteoblasts produce stronger, compact bone.

29. Remodeling Bones require different amounts of time to heal.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Remodeling
Bones require different amounts of time to heal.
Age, nutrition, location, and severity of the break are all factors.

30. Joints occur where two or more bones meet.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Joints
Joints occur where two or more bones meet.
The bones of joints
are held together by ligaments.

31. Chapter 32
Integumentary, Skeletal, and Muscular Systems

32. 32.2 The Skeletal System Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System

33. 32.2 The Skeletal System Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System

34. Chapter 32
Integumentary, Skeletal, and Muscular Systems

35. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 The Skeletal System
Osteoarthritis
A painful condition that affects joints and results in the deterioration of the cartilage
Rheumatoid Arthritis
Affected joints lose strength and function and are inflamed, swollen, and painful.
Bursitis
Sprains

36. Muscles are classified according to their structure and function.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Three Types of Muscle
Muscles are classified according to their structure and function.

37. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Smooth Muscle
Many hollow internal organs such as the stomach, intestines, bladder, and uterus are lined with smooth muscle, a type of involuntary muscle.

38. Cardiac muscle cells are arranged in a
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Cardiac Muscle
The involuntary muscle present only in the heart is called cardiac muscle.
Cardiac muscle cells are arranged in a
network that allows the heart muscle to
contract efficiently and rhythmically.

39. Skeletal muscles are voluntary muscles that cause movement.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Skeletal Muscle
Skeletal muscles are voluntary muscles that cause movement.
Tendons connect muscles to bones.

40. Skeletal Muscle Contraction
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Skeletal Muscle Contraction
Most skeletal muscles are arranged in opposing, or antagonistic pairs.

41. Chapter 32
Integumentary, Skeletal, and Muscular Systems

42. Myofibrils consist of even smaller units, myosin and actin.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Skeletal muscle is arranged into fibers, which consist of many smaller units called myofibrils.
Myofibrils consist of even smaller units, myosin and actin.
Myofibrils are arranged in sections called sacromeres.

43. 32.3 The Muscular System Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System

44. Sliding Filament Theory
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Sliding Filament Theory
Once a nerve signal reaches a muscle, the actin filaments slide toward one another, causing the muscle to contract.

45. 32.3 The Muscular System Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System

46. Chapter 32
Integumentary, Skeletal, and Muscular Systems

47. Skeletal Muscle Strength
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Skeletal Muscle Strength
Slow-twitch muscles
Slow-twitch muscle fibers have more endurance than fast-twitch muscle fibers.
They contain myoglobin, a respiratory molecule that stores oxygen and serves as an oxygen reserve.

48. Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 The Muscular System
Fast-Twitch Muscles
Fast-twitch muscle fibers fatigue easily but provide great strength for rapid, short movements.
They rely on anaerobic metabolism, which causes a buildup of lactic acid.
Muscle Stimulation

49. Chapter Resource Menu Chapter Diagnostic Questions
Integumentary, Skeletal, and Muscular Systems
Chapter Resource Menu
Chapter Diagnostic Questions
Formative Test Questions
Chapter Assessment Questions
Standardized Test Practice
biologygmh.com
Glencoe Biology Transparencies
Image Bank
Vocabulary
Animation
Click on a hyperlink to view the corresponding feature.

50. What are the living bone cells?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Chapter Diagnostic Questions
What are the living bone cells?
osteoclasts
osteocytes
cartilage
bone marrow A B C D
CDQ 1

51. Wrists and ankles have which type of joint?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Chapter Diagnostic Questions
Wrists and ankles have which type of joint?
hinge
pivot
gliding
ball-and-socket A B C D
CDQ 2

52. Which part of the muscle contracts?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Chapter Diagnostic Questions
Which part of the muscle contracts?
tendon
myofibril
sacromere
ligament A B C D
CDQ 3

53. What protective protein is contained in the
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 Formative Questions
What protective protein is contained in the
outer layers of epidermal cells?
collagen
keratin
fibrinogen
melanin A B C D
FQ 1

54. How do cells in the skin protect the skin from ultraviolet radiation?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 Formative Questions
How do cells in the skin protect the skin from
ultraviolet radiation?
They secrete oils.
They store cutin.
They absorb calcium.
They produce melanin. A B C D
FQ 2

55. Where are sebaceous glands located?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 Formative Questions
Where are sebaceous glands located?
epidermis
hair follicles
sweat pores
subcutaneous tissue A B C D
FQ 3

56. For which type of burn is there usually no pain?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 Formative Questions
For which type of burn is there usually
no pain?
first-degree
second-degree
third-degree A B C
FQ 4

57. It damages the DNA in skin cells.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.1 Formative Questions
Why is exposure to ultraviolet radiation a significant risk factor for the development of skin cancer?
It damages the DNA in skin cells.
It causes excess vitamin D production.
It mutates melanin molecules in the skin.
It causes irregular freckles and moles to appear. A B C D
FQ 5

58. A B Which division of the skeleton is related to
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 Formative Questions
Which division of the skeleton is related to
the movement of limbs?
axial skeleton
appendicular skeleton A B
FQ 6

59. What type of tissue is bone?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 Formative Questions
What type of tissue is bone?
connective tissue
epithelial tissue
integumentary tissue
ligamentary tissue A B C D
FQ 7

60. Where in this bone is the spongy bone tissue?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 Formative Questions
Where in this bone is the spongy bone tissue? A B C D
FQ 8

61. Where in the bone is fat stored?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 Formative Questions
Where in the bone is fat stored?
osteons
spongy bone
bone marrow
Haversian canals A B C D
FQ 9

62. How are children’s bones different than adult bones?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 Formative Questions
How are children’s bones different than adult bones?
Children’s bones have fewer osteoblasts.
Children’s bones have more red bone marrow.
Ossification is slower in children’s bones.
The osteon system in children’s bones is not fully developed. A B C D
FQ 10

63. What results from damage to the ligaments that hold joints together?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.2 Formative Questions
What results from damage to the ligaments
that hold joints together?
bursitis
tendonitis
osteoarthritis
a sprain A B C D
FQ 11

64. Which is not a characteristic of smooth muscle?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 Formative Questions
Which is not a characteristic of smooth muscle?
It is an involuntary muscle.
It has one nucleus per cell.
It has striations and stripes.
It lines organs of the digestive tract. A B C D
FQ 12

65. Which represents the levels of organization of
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 Formative Questions
Which represents the levels of organization of
skeletal muscle from larger to smaller units?
fibers → myofibrils → sacromeres → filaments
filaments → myofibrils → sacromeres → fibers
myofibrils → filaments → fibers → sacromeres
sacromeres → myofibrils → filaments → fibers A B C D
FQ 13

66. When a muscle is stimulated by a nerve
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 Formative Questions
When a muscle is stimulated by a nerve
impulse, what electrolyte is released into
the myofibrils?
calcium
oxygen
potassium
sodium A B C D
FQ 14

67. What is the main cause of rapid breathing,
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 Formative Questions
What is the main cause of rapid breathing,
muscle pain, and muscle fatigue during
intense exercise?
ATP
CO2
iodine
lactic acid A B C D
FQ 15

68. Which athlete is most likely to have the
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 Formative Questions
Which athlete is most likely to have the
highest proportion of slow-twitch muscle
fibers?
long-distance swimmer
mountain-biker
sprint runner
weight-lifter A B C D
FQ 16

69. A B Which type of muscle fibers respond to
Chapter 32
Integumentary, Skeletal, and Muscular Systems
32.3 Formative Questions
Which type of muscle fibers respond to
exercise by producing more mitochondria?
fast-twitch muscle fibers
slow-twitch muscle fibers A B
FQ 17

70. What might result from a blocked sebaceous gland?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Chapter Assessment Questions
What might result from a blocked sebaceous gland?
acne
sweat
baldness
ingrown hair A B C D
CAQ 1

71. Which structure causes goose bumps?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Chapter Assessment Questions
Which structure causes goose bumps?
nerves
fat
sweat glands
muscles A B C D
CAQ 2

72. Describe how a cut on the skin heals.
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Chapter Assessment Questions
Describe how a cut on the skin heals.
Answer: Blood flows out of the skin and
forms a clot and scab. Under the
scab, cells multiply to fill the wound.
Infection-fighting white blood cells
get rid of bacteria.
CAQ 3

73. What is this bump in the skin?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
What is this bump in the skin?
a mole
a wart
a goosebump
an acne pimple A B C D
STP 1

74. What protein do hair and nails contain?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
What protein do hair and nails contain?
chitin
cutin
keratin
myosin A B C D
STP 2

75. What is the function of osteoclasts?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
What is the function of osteoclasts?
They break down bone cells.
They produce blood cells and platelets.
They are responsible for growth and repair of bones.
They form a callus of cartilage at the location of a break. A B C D
STP 3

76. What cells produce spongy bone at the site of this fracture?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
What cells produce spongy bone at the site of this fracture?
osteoblasts
osteocytes
periostium cells
red marrow cells A B C D
STP 4

77. What causes bursitis? Standardized Test Practice
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
What causes bursitis?
Cartilage in moveable joints deteriorates.
Fluid-filled sacs surrounding joints become inflamed.
Joints lose strength and function and become swollen.
Ligaments that hold joints together become overstretched. A B C D
STP 5

78. What is one way that bones help the body maintain homeostasis?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
What is one way that bones help the body
maintain homeostasis?
They are constantly being remodeled.
They provide divisions of movement.
They provide framework for the skin.
They store and release calcium. A B C D
STP 6

79. Which joint provides the widest range of motion?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
Which joint provides the widest range
of motion? A B C D
STP 7

80. What causes lactic acid production in muscle cells?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
What causes lactic acid production in
muscle cells?
calcium pumping
cellular respiration
oxygen deprivation
rigor mortis A B C D
STP 8

81. How do fast-twitch muscles respond to exercise?
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Standardized Test Practice
How do fast-twitch muscles respond to
exercise?
They produce less lactic acid.
They produce more myoglobin.
The amount of myosin increases.
The number of myofibrils increases. A B C D
STP 9

82. Glencoe Biology Transparencies
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Glencoe Biology Transparencies

83. Chapter 32
Integumentary, Skeletal, and Muscular Systems
Image Bank

84. Chapter 32
Integumentary, Skeletal, and Muscular Systems
Image Bank

85. Section 1 Vocabulary epidermis keratin melanin dermis hair follicle
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Vocabulary
Section 1
epidermis
keratin
melanin
dermis
hair follicle
sebaceous gland

86. Section 2 Vocabulary axial skeleton osteoblast appendicular skeleton
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Vocabulary
Section 2
axial skeleton
appendicular skeleton
compact bone
osteocyte
spongy bone
red bone marrow
yellow bone marrow
osteoblast
ossification
osteoclast
ligament

87. Section 3 Vocabulary smooth muscle myosin involuntary muscle actin
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Vocabulary
Section 3
smooth muscle
involuntary muscle
cardiac muscle
skeletal muscle
voluntary muscle
tendon
myofibril
myosin
actin
sacromere

88. Visualizing Muscle Contraction
Chapter 32
Integumentary, Skeletal, and Muscular Systems
Animation
Healing Dermis
Joint Movements
Muscle Contraction
Visualizing Muscle Contraction

89. Chapter 32
Integumentary, Skeletal, and Muscular Systems

90. Chapter 32
Integumentary, Skeletal, and Muscular Systems

91. Chapter 32
Integumentary, Skeletal, and Muscular Systems

92. Chapter 32
Integumentary, Skeletal, and Muscular Systems