Solutions to the differential equation dy/dx = xy^3 also satisfy d^2y/dx^2 = y^3 (1 + 3x^2 y^2). Let y = f(x) be a particular solution to this differential equation with f(1) = 2 write an equation for the line tangent to the graph of y = f(x) at x = 1. Use the tangent line equation from part (a) to approximate f (1.1). Find the particular solution to this differential equation with initial condition f(1) = 2.

step-by-step explanation:

there is a formula i can give you:

it is r^2*n*sin(360/n) divided by 2 where r represents the "radius" and n is the number of sides.

plug them in:

(10sqrt(3))^2*6*sin(360/6) divided by 2

100*3*6*sin(60) divided by 2

900*sin(60)

900*sqrt(3)/2

450*sqrt(3)

approx is 779.4 cm^2

answer: its c because when it has a magnet next to it it will move away from the mixture. hope this

step-by-step explanation:

answer is b chief get it right