Pharmaceutical companies are interested in modelling the side-effect responses of medication. For example, the equation R(t) = 20t4 – 80t³ + 95t² – 30t can be used to model the side-effect response, where R(t) is the temperature in degrees Celsius above or below the normal body temperature (36.9°C) caused by an experimental drug t hours after it was administered. Due to the stress of temperature change on the body, a second drug is administered at the moment the patient's temperature starts to exceed 36.9°C. By applying the knowledge that you have learned about polynomials, algebraically, determine when the second drug will likely be administered. (4)

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(a) and (b) is from different question. Down one is my question
Algebraically solve x' –13x – 12 < 0. (2)
(b)
Find three other cubic polynomial inequalities with the same interval
solutions. Describe why your answer works. (2)
(a)
Pharmaceutical companies are interested in modelling the side-effect responses of
medication. For example, the equation
R(t) = 20t4 – 80t³ + 95t² – 30t
can be used to model the side-effect response, where R(t) is the temperature in degrees
Celsius above or below the normal body temperature (36.9°C) caused by an experimental
drug t hours after it was administered. Due to the stress of temperature change on the
body, a second drug is administered at the moment the patient's temperature starts to
exceed 36.9°C. By applying the knowledge that you have learned about polynomials,
algebraically, determine when the second drug will likely be administered. (4)
Transcribed Image Text:Algebraically solve x' –13x – 12 < 0. (2) (b) Find three other cubic polynomial inequalities with the same interval solutions. Describe why your answer works. (2) (a) Pharmaceutical companies are interested in modelling the side-effect responses of medication. For example, the equation R(t) = 20t4 – 80t³ + 95t² – 30t can be used to model the side-effect response, where R(t) is the temperature in degrees Celsius above or below the normal body temperature (36.9°C) caused by an experimental drug t hours after it was administered. Due to the stress of temperature change on the body, a second drug is administered at the moment the patient's temperature starts to exceed 36.9°C. By applying the knowledge that you have learned about polynomials, algebraically, determine when the second drug will likely be administered. (4)
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