Answer:
ok here
Explanation:
Routine. You might be following a routine that does not match your goal's requirement.
Answer:
a. Atenolol is a beta-blocker, while Hydrochlorothiazide is a diuretic.
b. Atenolol and Hydrochlorothiazide can be used together to decrease the blood pressure and to slow the heart rate down.
c. The patient needs to have into consideration that both medications may cause irregular heartbeats, dizziness, weakness and fainting.
Explanation:
Atenolol is a beta-blocker, it means that this drug slows down the heart rate by changing how the body responds to nerve impulses, which enhances the pumping of blood. Moreover, Hydrochlorothiazide is a diuretic or 'water pills' drug that can be used to treat edema conditions (i.e., excess fluid in tissues), thereby enhancing blood pressure that can damage the heart. It has been shown that the combination of both drugs may decrease the blood pressure and the incidence of hypertension.
Answer:
4 year old
Explanation:
The teenager would have a harder time because s/he has known the same language for so long that new words can be difficult. But a 4 yo wouldn't have as much trouble because the brain is newer
Answer:
c)peptidoglycan synthesis and cell walls
Explanation:
The main points of action of antibiotics are inhibition of bacterial cell wall peptideoglycan synthesis, cytoplasmic membrane damage and interference with nucleic acid and protein synthesis.
The bacterial cell wall is formed by peptideoglycan. Penicillin and other antibiotics prevent its complete synthesis, consequently weaken the cell wall and the cell lyses. Because human cells lack peptideoglycan, penicillin has low toxicity to the host cell. The synthesis of peptideoglycan components is affected by β-lactam antibiotics (penicillins and cephalosporins).
For this reason, we can conclude that the antibiotics described in the above question are those that target peptidoglycan and cell wall synthesis.
The answer is C. REM (rapid eye movement) occurs during stage 5 of the sleep cycle. It takes up roughly 20-25% of the adult sleeping time.