You are trying to synthesize a new compound that has potential anti-HIV activity – it could be the next drug used to treat HIV! It can be synthesized (made) from two commercially available starting molecules – call them “A” and “B”. They can be combined according to the following equation: A + 2B -> desired drug molecule. “A” has a molar mass of 85.0 g/mol, and “B” has a molar mass of 130.0 g/mol. You look these starting materials up in a chemical catalog, and here’s what you find: compound “A” costs $5000.00 per 5.0 grams compound “B” costs $2500.00 per 1.0 gram (though you can buy either in any amount) a) You currently have $10000.00 to spend on starting materials. How many grams of each will you purchase to maximize the amount of drug molecule made? Show all work
You are trying to synthesize a new compound that has potential anti-HIV activity – it could be the next drug used to treat HIV! It can be synthesized (made) from two commercially available starting molecules – call them “A” and “B”. They can be combined according to the following equation:
A + 2B -> desired drug molecule. “A” has a molar mass of 85.0 g/mol, and “B” has a molar mass of 130.0 g/mol. You look these starting materials up in a chemical catalog, and here’s what you find:
compound “A” costs $5000.00 per 5.0 grams
compound “B” costs $2500.00 per 1.0 gram
(though you can buy either in any amount)
a) You currently have $10000.00 to spend on starting materials. How many grams of each will you purchase to maximize the amount of drug molecule made? Show all work
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