(x^3)'=3x^2

Докажите следующую формулу, используя определение производной​

The given equation can be re-written as sin

2

4x−2sin4xcos

4

x+cos

2

x=0

Add and subtract cos

8

x

∴(sin4x−cos

4

x)

2

+cos

2

x(1−cos

6

x)=0

Since both the terms are +ive (cos

6

x≤1), above is possible only when each term is zero for the same value of x.

sin4x−cos

4

x=0 .(1)

and cos

2

x(1−cos

6

x)=0 .(2)

From (2) cosx=0 or cos

2

x=1

∵z

3

=1⇒z=1 only

as other values will not be real.

Case I: If cosx=0 i.e., x=(n+

2

1

)π, then from (1)

sin4(n+

2

1

)π+0=0

or sin(4n+2)π=0 which is true.

∴x=(n+

2

1

)π (3)

Case II: When cos

2

x=1 i.e., sinx=0

∴x=rπ then from (1), sin4rπ−1=0 or −1=0 which is not true. Hence the only solution is given by (3).

y=Π/3-x

sin x+cos(Π/3-x)=1

sin x+cos Π/3*cos x+sin Π/3*sin x=1

sin x*(1+√3/2)+cos x*1/2=1

Переходим к половинным аргументам и умножаем все на 2.

2sin(x/2)*cos(x/2)*(2+√3) + cos^2(x/2) - sin^2(x/2) = 2cos^2(x/2)+2sin^2(x/2)

Переносимости все в одну сторону

3sin^2(x/2) - (4+2√3)*sin(x/2)*cos(x/2) + cos^2(x/2) = 0

Делим все на cos^2(x/2)

3tg^2(x/2)-(4+2√3)*tg(x/2)+1=0

Замена t=tg(x/2)

3t^2-(4+2√3)*t+1=0

Получили обычное квадратное уравнение

D/4=(2+√3)^2-3*1=4+4√3+3-3= 4+4√3

t1=tg(x/2)=[2+√3-√(4+4√3)]/3

t2=tg(x/2)=[2+√3+√(4+4√3)]/3

Соответственно

x1=2*arctg(t1)+Π*n; y1=Π/3-x1

x2=2*arctg(t2)+Π*n; y2=Π/3-x2