A contaminant is leaking into a lake at a rate of R(t) = 1600^e0.06t gallons/h. Enzymes...

A contaminant is leaking into a lake at a rate of R(t) = 1600^e0.06t gallons/h. Enzymes have been added to the lake that neutralize the contaminant over time so that after t hours the fraction that remains is S(t) = e^−0.32t. If there are currently 19,000 gallons of the contaminant in the lake, how many gallons are present in the lake 18 hours from now? (Round your answer to the nearest whole number.)

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milcah answered 2 years ago

A contaminant is leaking into a lake at a rate of R(t) = 1200e^0.06t gallons/h. Enzymes...

A contaminant is leaking into a lake at a rate of R(t) = 1200e^0.06t gallons/h. Enzymes have been added to the lake that neutralize the contaminant over time so that after t hours the fraction that remains is S(t) = e^−0.32t. If there are currently 18,000 gallons of the contaminant in the lake, how many gallons are present in the lake 18 hours from now? (Round your answer to the nearest whole number.)

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Indicate the net charge for the peptide, C-H-A-V-E-C-A-R-R-I-S-T-H-E-G-R-E-A-T-E-S-T, at the given pH values: (a) pH 1, net charge: (b) pH 5, net charge: (c) pH 8, net charge: (d) pH 14, net charge:

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