In a town whose population is 3200, a disease creates an epidemic. The number of people N infected t days after the disease has begun is given by the function N(1) = 3200 through c) below. 1+20,2e 0 81 Complete parts a) The number infected after 2 days is 630 (Round to the nearest whole number as needed.) The number infected after 5 days is 2,336. (Round to the nearest whole numbers as needed.) The number infected after 8 days is 3096. (Round to the nearest whole numbers as needed.) The number infected after 12 days is 3196. (Round to the nearest whole numbers as needed.) The number infected after 16 days is 3200 (Round to the nearest whole numbers as needed.) c) Using this model, can you say whether all 3200 people will ever be infected? Explain. Select the correct choice below and, if necessary, fill in the answer box to complete your choice. O A. As t-e, N(t)-3200, so 3200 people will be infected after 16 days. O B. As t-0, N(t)3200, so 3200 people will be infected after 16 days. O c. As t- 0o, N(t)3200, so the number approaches 3200, but never actually reaches it View an Example Get More Help- Clear Skill Builder Final Check Help Me Solve This 8:25 PM A 9/22/2021 of

Transcribed Image Text:

In a town whose population is 3200, a disease creates an epidemic. The number of people N infected t days after the disease has begun is given by the function N(1) = 3200 through c) below. 1+20.2 -0.81 Complete parts a) The number infected after 2 days is 630. (Round to the nearest whole number as needed.) The number infected after 5 days is 2,336. (Round to the nearest whole numbers as needed.) The number infected after 8 days is 3096. (Round to the nearest whole numbers as needed.) The number infected after 12 days is 3196. (Round to the nearest whole numbers as needed.) The number infected after 16 days is 3200 (Round to the nearest whole numbers as needed.) c) Using this model, can you say whether all 3200 people will ever be infected? Explain, Select the correct choice below and, if necessary, fill in the answer box to complete your choice O A. As t-e, N(t)-3200, so 3200 people will be infected after 16 days. O B. As t-0, N(t)-3200, so 3200 people will be infected after 16 days O c. As t+0o, N(t)-3200, so the number approaches 3200, but never actually reaches it. Help Me Solve This View an Example Get More Help - Clear All Skill Builder Final Check 8:25 PM 9/22/2021 of DELL

Transcribed Image Text:

In a town whose population is 3200, a disease creates an epidemic. The number of people N infectedt days after the disease has begun is given by the function N(t) = 3200 Complete parts a) through c) below. 1+20.2 e -0.8t The number infected after 2 days is 630. (Round to the nearest whole number as needed.) The number infected after 5 days is 2,336. (Round to the nearest whole numbers as needed.) The number infected after 8 days is 3096. (Round to the nearest whole numbers as needed.) The number infected after 12 days is 3196. (Round to the nearest whole numbers as needed.) The number infected after 16 days is 3200. (Round to the nearest whole numbers as needed.) c) Using this model, can you say whether all 3200 people will ever be infected? Explain, Select the correct choice below and, if necessary, fill in the answer box to complete your choice. O A. As t-e, N(t)→3200, so 3200 people will be infected after 16 days. O B. As t-0, N(t)→3200, so 3200 people will be infected after 16 days. O c. As t→ 00, N(t)-3200, so the number approaches 3200, but never actually reaches it. Clear All Skill Builder Final Check Help Me Solve This View an Example Get More Help- 824 PM 9/22/2021 DELL