or a fixed location, the number of sunlight hours in a day fluctuates throughout the year. Suppose that the number of daily sunlight hou cation can be modeled by the following. L (t) = 12+2.7 sin 2T 365 In this equation, L (t) is the number of sunlight hours in a day, and t is the number of days after March 20th. (So t=0 means March 20¹ March 21st, t=2 means March 22nd, etc.) Suppose we start at t=0, which is March 20th During the first 365 days, when will there be 13 hours of sunlight? Do not round any intermediate computations, and round your answer(s) to the nearest day. (If there is more than one answer, enter addit "or" button.) t= th days after March 20 ☐or O X 3

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For a fixed location, the number of sunlight hours in a day fluctuates throughout the year. Suppose that the number of daily sunlight hours in a particular location can be modeled by the following. L (t) = 12+2.7 sin In this equation, L (t) is the number of sunlight hours in a day, and t is the number of days after March 20th. (So t=0 means March 20th, t= 1 means March 21st, t=2 means March 22nd, etc.) Suppose we start at t=0, which is March 20th During the first 365 days, when will there be 13 hours of sunlight? Do not round any intermediate computations, and round your answer(s) to the nearest day. (If there is more than one answer, enter additional answers with the "or" button.) t= 2π 365 days after March 20 Explanation Check ☐or X S MacBook Pro 2023 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy Center | Accessi