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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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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. The cavities in between the spicules are filled with yellow or red bone marrow
Lamellae
Spicules
Endoskeleton
Sarcoplasmic Reticulum

2. Occurs when both ends of the muscle are fixed and no change in length occurs during the contraction - but the tension increases
Flagella
Thick Filaments
H zone
Isometric Contraction

3. Purpose is to convert lactic acid in the liver to glucose for discharge into the bloodstream during period of strenuous activity
Smooth Muscle
Flexion
Cori Cycle
Insertion

4. Link between the nerve terminal (synaptic bouton( and the sarcolemma of the muscle fiber
Isotonic Contraction
I band
Neuromuscular Junction
Axial Skeleton

5. Type of dynamic contraction where the muscle fiber lengthens and the tension on the muscle increases
Eccentric Contraction
Exoskeleton
Muscle Contraction
T system

6. Point of attachment of a muscle to a stationary bone (the proximal end in limb muscles)
Origin
Isotonic Contraction
Endoskeleton
Osteoblasts

7. Much less dense and consists of an interconnecting lattice of bony spicules
Osteoclasts
Spongy Bone
Flexion
Cori Cycle

8. Stimulated by a message from the somatic nervous system sent via a motor neuron
Cardiac Muscle Fibers
M line
Muscle Contraction
Bone Formation

9. Attach skeletal muscle to bones and bend the skeleton at the movable joints
Tendons
Myofibrils
Cartilage
Latent period

10. After the contraction period - this is a brief relaxation period in which the muscle is unresponsive to a stimulus
Striated Muscle
T system
Temporal Summation
Absolute Refractory Period

11. 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
Temporal Summation
Insertion
Pyramidal System
Pseudopodia

12. Amoeba use for locomotion where the advancing cell membrane extends forward
Chorondytes
T system
Pseudopodia
M line

13. In vertebrates and some invertebrates - particularly echinoderms - energy can be temporarily stored in a high-energy compound
Spongy Bone
Creatine Phosphate and ARginine Phosphate
Rig Mortis
Myoglobin

14. The region containing thin filaments only
Lamellae
Pyramidal System
I band
Dynamic Contraction

15. Specialized type of mineralized connective tissue that has the ability to withstand physical stress -designed for body support -hard and strong while - at the same time somewhat elastic and lightweight
Bone
Smooth Muscle
Simple Twhich
Myoglobin

16. Involved in blood cell formation
Red Marrow
Myofibrils
Spicules
Intramembranous Ossification

17. Serve as bone to bone connectors
Cardiac Muscle Fibers
Absolute Refractory Period
Yellow marrow
Ligaments

18. Capable of propagating an action potential and is connected to a system of transverse tubules (T system) oriented perpendicularly to the myofibrils
Pseudopodia
Tetanus
Sarcolemma
Z line

19. Synthesize and secrete the organic constituents of the bone matrix; once they have become surrounded by their matrix - they mature into osteocytes
Bone Formation
Thin filaments
Rig Mortis
Osteoblasts

20. Type of dynamic contraction where the muscle fibers shorten and the tension on the muscle increases
Endoskeleton
Concentric Contraction
Cartilage
Compact Bone

21. Skeletal muscle - smooth muscle - and cardia muscle
Tonus
Osteon
Thick Filaments
Muscles in Mammals

22. Composed of organized bundles of myosin molecules
Isotonic Contraction
Muscle Contraction
Neuromuscular Junction
Thick Filaments

23. Includes both concentric and eccentric types of contractions -results in the chang in length of the muscle with a corresponding change in tension on that muscle
Spongy Bone
Pseudopodia
Dynamic Contraction
Axial Skeleton

24. The basic framework of the body - consisting of the skull - vertebral column - and the rib cage
Axial Skeleton
Concentric Contraction
Absolute Refractory Period
Insertion

25. Indicates a straightening of a join
Bone
Extension
Striated Muscle
Compact Bone

26. 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
Isometric Contraction
Z line
Tetanus
Endochondral Ossification

27. Composed of thin and thick filaments
Osteoclasts
Sarcomere
Isotonic Contraction
Bone

28. Cells responsible for synthesizing cartillage
Creatine Phosphate and ARginine Phosphate
Osteon
Chorondytes
Thick Filaments

29. State of partial contraction
Tonus
Tetanus
Flatworms
Muscles in Mammals

30. Centers that can issue somatic motor commands as a result of processing performed at the unconscious - involuntary level
Tetanus
Extrapyramidal System
A Band
Myofibrils

31. Serves as the framework within all vertebrate organisms
Endoskeleton
Bone Formation
Lamellae
A Band

32. Existing cartilage is replaced by bone
A Band
Pseudopodia
Endochondral Ossification
Thin filaments

33. Provides channels for ion flow throughout the muscle fibers - and can also propagate an action potential
Cori Cycle
Sarcolemma
T system
Eccentric Contraction

34. Spans the entire length of the thick filaments and any overlapping portions of the thin filaments
Insertion
Spongy Bone
Temporal Summation
A Band

35. Concentric circles of bony matrix
Lamellae
Endoskeleton
Unicellular Locomotion
Isotonic Contraction

36. Advance principally by the action of muscles on a hydrostatic skeleton
Endochondral Ossification
Segmented Worms (Annelids)
Thick Filaments
Cardiac Muscle Fibers

37. Define the boundaries of a single sacromere and anchor the thin filaments
Compact Bone
Sarcomere
Myoglobin
Z line

38. Mesenchymal (embryonic or undifferentiated) connective tissue is transformed into - and replaced by - bone
Rig Mortis
T system
Absolute Refractory Period
Intramembranous Ossification

39. Time between stimulation and the onset of contraction
Smooth Muscle
Latent period
Yellow marrow
Extrapyramidal System

40. Move by beating cilia or flagella
Osteon
Unicellular Locomotion
Osteoclasts
Smooth Muscle

41. Muscles contract against the resistance of the incompressible fluid within the animal's tissues (this fluid is termed the hydrostatic skeleton)
Intramembranous Ossification
Flatworms
ATP
Lamellae

42. Inactive and infiltrated by adipose tissue
Eccentric Contraction
Chorondytes
Sarcomere
Yellow marrow

43. Responsible for voluntary movements and is innervated by the somatic nervous system
Cardiac Muscle Fibers
Origin
Skeletal Muscle
A Band

44. Point of attachment of a muscle to the bone that moves (distal end in limb muscles)
Insertion
Isotonic Contraction
Rig Mortis
Osteon

45. Occurs whne a muscle shortens against a fixed load while the tension on that remains constant
Smooth Muscle
Thick Filaments
Intramembranous Ossification
Isotonic Contraction

46. Chains of actin molecules
Osteoclasts
Thin filaments
Segmented Worms (Annelids)
M line

47. The primary source of energy for muscle contraction
Dynamic Contraction
Extension
Osteon
ATP

48. Multinucleated cell created by the fusion of several mononucleated embryonic cell
Eccentric Contraction
Endochondral Ossification
Temporal Summation
Fiber

49. 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
Isometric Contraction
Rig Mortis
I band
Temporal Summation

50. Large - multinucleated cells involved in bone resorption
Intramembranous Ossification
Bone Formation
Osteoclasts
Dynamic Contraction