For questions #51 to #55, MATCH each question with the corresponding description

ID: 3477402 • Letter: F

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For questions #51 to #55, MATCH each question with the corresponding description (A-E). 51) Mineralocorticoids 52) Calcitonin 53) Androgens 54) PTH 55) Insulin A. Activation of osteoclast activities B. Long-term stress C. Facilitating glucose entry into body cells D. Short-term stress E. Inhibition of osteoclast activities For questions #56 to 60, MATCH each question with the corresponding description (A-E) S0) Action potentials 57) IPSPs 58) Saltatory conduction 59) EPSPs 60) Continuous conduction A. B. C. D. E. Signal amplitudes dissipate with distance Unmyelinated axons Electrical synapses Myelinated axons Signal amplitudes stay the same regardless of distance 61-65) For questions #61 to #65, MATCH each question with the corresponding description (A-E) 61) Enzymatic degradation 62) Temporal summation 63) Presynaptic reuptake 64) Spatial summation 65) Spill-over A. Presynaptic modulation B. Neural integration C. Presynaptic facilitation D. Mechanisms used to terminate chemical signals E. Presynaptic inhibition 66-70) For questions "66 to #70, MATCH each question with the corresponding description (A-E). 66) AMPA receptors 67) Memory of learned experiences 68) Birth of an action potential 69) Memory of learned motor skills 70) NMDA receptors A. Potassium efflux B. Procedural memory C. Calcium influx D. Declarative memory E. Sodium influx Page 7 of 8

Explanation / Answer

51. Mineralocorticoids D. Short term stress

52. Calcitonin. E. Inhibition of osteoclast activity

53. Androgens. B. Long term stress.

54. PTH. A. Activation of osteoclast activities

55. Insulin. C facilitating glucose entry into blood cells.

56. Action potential. C. Electrical synapses.

57. Ipsps. A. Signal amplitudes desipate with distance

58. Saltatory conduction. D. Myelinated axons.

59. Epsps. E. Signal amplitudes remain same regardless of distance.

60. Continuous conduction. B. Unmyelinated axons

66. AMPA receptors. A. Potassium efflux.

67. Memory of learned experience. D. Declarative memory.

68. Birth of an action potential. E. Sodium influx.

69. Memory of learned motor skills. B. Procedural memory.

70. NMDA receptors. C. Calcium influx.

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For questions #51 to #55, MATCH each question with the corresponding description

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