Answer:
2.5 tablets
Explanation:
First thing to do, in dealing with this type of questions, is to make sure that the prescribed dose and the dose of the drug in a single tablet are expressed in the same units. Since that is the case here (both doses are in milligrams), we can proceed.
So, one tablet has 50 mg of the drug and we need to administer 125 mg. That basically comes down to the equation:
50mg • x = 125 mg
where x is the number of tablets.
Now, we can find x:
x = 125 / 50
x = 2.5
So we need to administer 2.5 50 mg tablets in order for a patient to recieve 125 mg dose.
I would say brown rice because it does not need to be refrigerated and can last longer than cheese.
No, it is toxic. You can hold people accountable without canceling them. Nowadays people will cancel anyone from anything.
It will be Josh who gets his target THR. His range is within 135 bpm—175 bpm while the actual heart rate was 165 bpm, deducting it with 20 bpm results to 145 bpm - falling to the 135 bpm—175 bpm THR range. Although doing the same method as Josh's results to 165 bpm for Dominique, it doesn't fall to his 150 bpm—183 bpm THR range.
Start with your producers, or plants (grasses, flowers, etc.). Then your 1st level consumers (herbivores), like grasshoppers, mice, etc. Then your second level producers (carnivores and omnivores) that eat the herbivores (like birds). And keep going, knowing each of the levels get eaten by each other. 10% of energy is transferred in each level. An example might be...
Grass > Mice > Hawk > Vulture
