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PCAT Biology Muscles And Locomotion

Subjects : pcat, biology

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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1. Involved in blood cell formation
Concentric Contraction
Pseudopodia
T system
Red Marrow

2. Composed of organized bundles of myosin molecules
A Band
Flatworms
Thick Filaments
Concentric Contraction

3. HGb-like protein found in muscle tissue -has a high oxygen affinity and maintains the oxygen supply in muscles by bind oxygen tightly
Segmented Worms (Annelids)
Myoglobin
Chorondytes
Latent period

4. Achieve movement by means of the power stroke -a thrusting movement generated by the sliding action of microtubules
Rig Mortis
Segmented Worms (Annelids)
Flagella
Chorondytes

5. Serves as the framework within all vertebrate organisms
Endoskeleton
M line
Simple Twhich
Extension

6. Units of diveded myofibrils
Ligaments
Simple Twhich
Sarcomeres
Cori Cycle

7. State of partial contraction
Muscle Contraction
Tonus
I band
Flexion

8. After the contraction period - this is a brief relaxation period in which the muscle is unresponsive to a stimulus
Striated Muscle
Exoskeleton
Absolute Refractory Period
Flagella

9. Skeletal muscle - smooth muscle - and cardia muscle
Z line
Eccentric Contraction
Osteoblasts
Muscles in Mammals

10. Responsible for voluntary movements and is innervated by the somatic nervous system
Skeletal Muscle
H zone
Dynamic Contraction
Eccentric Contraction

11. Type of dynamic contraction where the muscle fibers shorten and the tension on the muscle increases
Spongy Bone
Sarcomere
Concentric Contraction
Thick Filaments

12. Striations of light and dark bands of skeletal muscle
Absolute Refractory Period
M line
Striated Muscle
Latent period

13. Consists of a central microscopic channel called a Haversian Canal - surrounded by a number of lamellae
A Band
Concentric Contraction
Thin filaments
Osteon

14. Existing cartilage is replaced by bone
Endoskeleton
Concentric Contraction
Cartilage
Endochondral Ossification

15. Condition where the muscles contract and become rigid - even without action potentials which is caused b an absence of adenosiine triphosphate - which is required for the myosin heads to be released from the actin filaments
Skeletal Muscle
Rig Mortis
Myoglobin
Tendons

16. Provides channels for ion flow throughout the muscle fibers - and can also propagate an action potential
Osteoblasts
T system
Endoskeleton
Thin filaments

17. Indicates a straightening of a join
Axial Skeleton
Isometric Contraction
Extension
Temporal Summation

18. Muscle tissues of the heart
Muscle Contraction
Cardiac Muscle Fibers
Pyramidal System
Ligaments

19. Define the boundaries of a single sacromere and anchor the thin filaments
Cardiac Muscle Fibers
Chorondytes
Z line
Exoskeleton

20. Contraction that becomes continuous when the stimuli are so frequent that the muscle can't relax and is stronger than a simple twith of a single fiber
A Band
Tetanus
Red Marrow
Latent period

21. Advance principally by the action of muscles on a hydrostatic skeleton
Segmented Worms (Annelids)
Thick Filaments
A Band
Cartilage

22. Type of dynamic contraction where the muscle fiber lengthens and the tension on the muscle increases
Eccentric Contraction
Exoskeleton
Endochondral Ossification
Myoglobin

23. Muscles contract against the resistance of the incompressible fluid within the animal's tissues (this fluid is termed the hydrostatic skeleton)
Myoglobin
Flatworms
Rig Mortis
Cardiac Muscle Fibers

24. The region containing thin filaments only
Osteoclasts
Myoglobin
Compact Bone
I band

25. Type of connective tissue that is softer and more flexible than bone -retained in adults in places where firmness and flexibility are needed
Yellow marrow
Osteoclasts
Axial Skeleton
Cartilage

26. Much less dense and consists of an interconnecting lattice of bony spicules
Z line
Sarcolemma
I band
Spongy Bone

27. Purpose is to convert lactic acid in the liver to glucose for discharge into the bloodstream during period of strenuous activity
Thick Filaments
Simple Twhich
Spicules
Cori Cycle

28. Spans the entire length of the thick filaments and any overlapping portions of the thin filaments
Intramembranous Ossification
Z line
Origin
A Band

29. Inactive and infiltrated by adipose tissue
Latent period
Z line
Yellow marrow
Lamellae

30. Runs down the center of the sarcomere
M line
Flagella
Absolute Refractory Period
Simple Twhich

31. Multinucleated cell created by the fusion of several mononucleated embryonic cell
Tetanus
Sarcolemma
Fiber
Origin

32. Amoeba use for locomotion where the advancing cell membrane extends forward
Creatine Phosphate and ARginine Phosphate
Extension
Axial Skeleton
Pseudopodia

33. Region containing thick filaments only
Absolute Refractory Period
Lamellae
Temporal Summation
H zone

34. Point of attachment of a muscle to the bone that moves (distal end in limb muscles)
A Band
Pseudopodia
Insertion
Cardiac Muscle Fibers

35. When fibers of a muscle are expoed to a very frequent stimuli - the muscle can't fully relax and the contractions begin to combine - becoming stronger and more prolonged
Insertion
Endoskeleton
Cardiac Muscle Fibers
Temporal Summation

36. The primary source of energy for muscle contraction
Smooth Muscle
A Band
Dynamic Contraction
ATP

37. Occurs whne a muscle shortens against a fixed load while the tension on that remains constant
Flexion
Temporal Summation
H zone
Isotonic Contraction

38. Refers to a bending of a joint
Endochondral Ossification
Absolute Refractory Period
Flexion
Smooth Muscle

39. Chains of actin molecules
Thin filaments
Isometric Contraction
Yellow marrow
Endochondral Ossification

40. A hard skeleton that covers all muscles and organs of some invertebrates -found principally in arthropods -composed of noncellular material secreted by the epidermis
Bone Formation
Lamellae
Exoskeleton
Sarcolemma

41. Stimulated by a message from the somatic nervous system sent via a motor neuron
Flagella
Muscle Contraction
Ligaments
Eccentric Contraction

42. Capable of propagating an action potential and is connected to a system of transverse tubules (T system) oriented perpendicularly to the myofibrils
Sarcolemma
Simple Twhich
Axial Skeleton
Neuromuscular Junction

43. Time between stimulation and the onset of contraction
Latent period
Red Marrow
Neuromuscular Junction
Spongy Bone

44. Mesenchymal (embryonic or undifferentiated) connective tissue is transformed into - and replaced by - bone
Intramembranous Ossification
Origin
Absolute Refractory Period
Cori Cycle

45. The response of a single muscle fiber to a brief stimulus at or above the threshold stiulus - and consists of a latent period - a contraction period - and a relaxation period
Simple Twhich
Myofibrils
Isotonic Contraction
Rig Mortis

46. Occurs by either endochondral ossification or by intramembranous ossification
Bone Formation
Spongy Bone
ATP
Lamellae

47. The cavities in between the spicules are filled with yellow or red bone marrow
Simple Twhich
Spicules
Sarcomere
Pseudopodia

48. Serve as bone to bone connectors
Ligaments
Dynamic Contraction
Unicellular Locomotion
Red Marrow

49. Concentric circles of bony matrix
Rig Mortis
Latent period
Lamellae
Dynamic Contraction

50. Filaments embedded in fibers of muscles - which are divided into sarcomeres
Extension
Smooth Muscle
Myofibrils
Osteon