WITH EXPLANAITION PLEASE.

Which method would you use to solve the differential equation y'= 6x/y?

A.Method of Separable Variables would be used to solve this Differential Equation

B.First-Order, Linear Differential Equations would be used to solve this Differential Equation

C.Both Separable Variables and First-Order, Linear Differential Equations would be used to solve this Differential Equation

D.Neither Separable Variables nor First-Order, Linear Differential Equations would be used to solve this Differential Equation

Which method would you use to solve the differential equation Y' = 3x+5y?

A.Method of Separable Variables would be used to solve this Differential Equation

B.First-Order, Linear Differential Equations would be used to solve this Differential Equation

C.Both Separable Variables and First-Order, Linear Differential Equations would be used to solve this Differential Equation

D.Neither Separable Variables nor First-Order, Linear Differential Equations would be used to solve this Differential Equation

Which method, if any, would be used to solve the differential equation y' = 3y- 6xy?

A.Method of Separable Variables would be used to solve this Differential Equation

B.First-Order, Linear Differential Equations would be used to solve this Differential Equation

C.Both Separable Variables and First-Order, Linear Differential Equations would be used to solve this Differential Equation

D.Neither Separable Variables nor First-Order, Linear Differential Equations would be used to solve this Differential Equation

Which method, if any, would be used to solve the differential equation y'= sqrt{xy}?

A.Method of Separable Variables would be used to solve this Differential Equation

B.First-Order, Linear Differential Equations would be used to solve this Differential Equation

C.Both Separable Variables and First-Order, Linear Differential Equations would be used to solve this Differential Equation

D.Neither Separable Variables nor First-Order, Linear Differential Equations would be used to solve this Differential Equation

The figure shows the region of integration for the integral. So So So f(x, y. = ) dyd: dx Choose five other iterated integrals that are equal to the given iterated integral. Assume y(x) = 1-x, z(x) = 1-x2. z(r) fo fo fo f(x. y. = ) d= dy dr, fo fo fo f(x, y. = ) d= dx dy. So for So " f(x, y. = ) ded= dy + fo fzy-va fo 'f(x, y, = ) dx dady. So f(x, y. = ) dyde d:, off vizz jyl-z f(x. y. = ) dx dy d= + fo fly, fo " f(x. y. = ) dx dy d: fo fo fo f(x,y. = ) d= dy do, fofo fo f(x, y. = ) didx dy, fo fo fo f(x, y. = ) drd= dy + fo fzy_y fo ' f(x, y, = ) de d=dy, A- [l- f(x, y, = ) dy dr d:, of jovi- - f(x, y. = ) dxdy d= + S', fi_, So " f (x. y. = ) dr dyd: [ of(x, y. = ) d= dydx, ff ff(x,y, = ) didx dy. ( f(x, y. = ) ded= dy + fo fzy_pa fo ' f(x, y, =) dx dady, 1- f(x, y. = ) dy dx de, o fo fo [of-z f (x, y. = ) didyd= + fo fly= fo " f(x. y. = ) di dy da "f(x, y. = ) d= dy de, fo fo fo f(x, y. = ) d= dady. So Jay-z fo f(x, y, = ) ded= dy + fo Jay-z fo " f(x, y, = ) drd= dy. f- - f(x,y, = ) dydrd:, of fozz f(x, y. = ) dxdy d: + fo fix= fo " f(x. y. = ) dx dy d: fo fo f(x, y. = ) d= dy dx, fo fo fo f(x. y. = ) d= dx dy. fo fo fo " f(x, y. = ) dad= dy + So Jay-z fo " f(x, y, = ) dx dady. A-z [l- f(x, y, = ) dy dx da, So So- "VI- [-z f(x. y. = ) dxdy d= + fo f_VT=, fo f(x, y. = ) dr dy d:Theme: Trigonometric integrals 1. Use the trigonometric integrals technique to evaluate the integral [ sen'x cos xax = 2. Use the trigonometric integrals technique to evaluate the integral tan* x sec* x de = 3. Use the trigonometric integrals technique to evaluate the integral sen (8x) cos(5x) dt = 4. Use the trigonometric integrals technique to evaluate the integral [cost x dx = 5. Use the trigonometric integrals technique to evaluate the integral sen(20) sen(60) de =