Answer:
1. dendrite = directs impulses toward the soma.
2. axon = conducts impulses toward the synaptic terminal.
3. perikaryon = region surrounding nucleus.
4. collateral branches = main branches of an axon.
5. synaptic terminal = enlarged end of an axon.
6. synaptic vesicles = contains neurotransmitters.
7. axon hillock = connects the cell body and axon.
8. Nissl bodies = clusters of RER and free ribosomes.
9. telodendria = fine branches of an axon.
10. myelinated internode = part of axon covered by Schwann cell.
11. neurilemma = Schwann cell's plasma membrane.
12. axolemma = membrane of the axon.
13. astrocyte = Forms the blood-brain barrier.
14. cell body = soma.
Answer:
10000 units/ml = 6000units/x ml = 0.6 ml
Explanation:
Set the problem, Take what you have: Heparin 10,000units/ml
and what you need: 6000 units/ x ml
<u>10,000 units</u> <u> 6000 units</u>
ml x ml
<u>10000 x</u> = <u>6000</u>
10000 10000
x = 0.6ml
Answer:
Patients who suffer from respiratory pathologies, generally present an increase in fluid in the alveoli, where they produce the gas exchange, that is why if we put the patient to bed completely, the gas exchange surface will be less, because the liquid that presents by the pulmonary emphysema is dispersed in more alveoli and therefore the difficulty of breathing is greater.
The ideal position then in this type of patient, where the problem is in the respiratory system, in the position of approximately 130 degrees, or an intermediate position between 180 and 90 degrees, since in this way the upper limb will not be at the same Height than the lower limb, the emphysema fluid does not disperse through the alveoli on a larger surface, but on a smaller surface, and thus the patient will be able to breathe better, and improve their gas exchange capacity.
Explanation:
The greater the occupied alveolar surface, the less capacity for gas exchange and therefore greater difficulty in breathing ... This would happen in patients who are fully reclined, that is, at 180 degrees.
If we position it well, between 90 and 180, approximately 130 degrees, less alveolar surface occupied by the fluid of the emphysema, greater gas exchange and therefore better breathing.
Question Completion:
Pour 67 mL of Juice B followed by 29 mL of Juice A into the 100 mL graduated cylinder. What is the percent strength of each juice?
Answer:
The
percent strength of Juice B = 70%.
The percent strength of Juice A = 30%.
Explanation:
a) Data and Explanation:
Juice B = 67 mL
Juice A = 29 mL
Graduated Cylinder capacity = 100 mL
Total juice of B and A = 96 mL
The percent strength of Juice B = 70% (67/96)
The percent strength of Juice A = 30% (29/96)
b) The percent strength is the computation of how much of Juice A substance is dissolved into a specific amount of Juice B liquid. The percent strength establishes the part-to-whole relationships. A percent is a part of the 100 total parts. The 100 total parts in this case = 96 (67 + 29). Therefore, the part of Juice A in the total parts = 29/96 * 100 = 30% , while the part of Juice B in the total parts = 67/96 * 100 = 70%. Knowing the percent strength of each liquid helps to determine the content of each juice.