Multiple ChoiceState the inputs and outputs of the following relation. Is it a function? {(−3,5),(0,2),(3,5)\left(-3,5\right),\left(0,2\right),\left(3,5\right)(−3,5),(0,2),(3,5)}50views1rank
Multiple ChoiceState the inputs and outputs of the following relation. Is it a function? {(2,5),(0,2),(2,9)\left(2,5\right),\left(0,2\right),\left(2,9\right)(2,5),(0,2),(2,9)}40views1rank
Multiple ChoiceFind the domain and range of the following graph (write your answer using interval notation).32views1rank
Textbook QuestionDaylight function for 40 °N Verify that the function D(t)=2.8sin(2π365(t−81))+12D(t)=2.8\sin(\frac{2\pi}{365}(t-81))+12D(t)=2.8sin(3652π(t−81))+12 has the following properties, where t is measured in days and D is the number of hours between sunrise and sunset. It has a period of 365 days.25views
Textbook QuestionDaylight function for 40 °N Verify that the function D(t)=2.8sin(2π365(t−81))+12D(t)=2.8\sin(\frac{2\pi}{365}(t-81))+12D(t)=2.8sin(3652π(t−81))+12 has the following properties, where t is measured in days and D is the number of hours between sunrise and sunset.Its maximum and minimum values are 14.8 and 9.2, respectively, which occur approximately at t=172t= 172 and t=355t = 355, respectively (corresponding to the solstices).23views
Textbook QuestionDaylight function for 40 °N Verify that the function D(t)=2.8sin(2π365(t−81))+12D(t)=2.8\sin(\frac{2\pi}{365}(t-81))+12D(t)=2.8sin(3652π(t−81))+12 has the following properties, where t is measured in days and D is the number of hours between sunrise and sunset.D(81)=12D(81) = 12 and D(264)≈12D(264) ≈ 12 (corresponding to the equinoxes).22views
Textbook QuestionThe population of a small town was 500 in 2018 and is growing at a rate of 24 people per year. Find and graph the linear population function p(t) that gives the population of the town t years after 2018. Then use this model to predict the population in 2033.23views
Textbook QuestionThrowing a stone Suppose a stone is thrown vertically upward from the edge of a cliff on Earth with an initial velocity of 32 ft/s from a height of 48 ft above the ground. The height (in feet) of the stone above the ground t seconds after it is thrown is s(t)=−16t2+32t+48s(t)=-16t^2+32t+48 .d. When does the stone strike the ground?23views
Textbook QuestionDemand and elasticity Based on sales data over the past year, the owner of a DVD store devises the demand function D(p)=40−2pD(p) = 40-2p , where D(p) is the number of DVDs that can be sold in one day at a price of p dollars.a. According to the model, how many DVDs can be sold in a day at a price of $10?24views