MatricesA=[44242069420696906900420]\mathrm{A} = \left[\begin{array}{lll} 4 & 42 & 420 \\ 69 & 420 & 69 \\ 690 & 6900 & 420 \end{array}\right] A=⎣⎡46969042420690042069420⎦⎤Calcular A−1=[] \mathrm{A^{-1}} = \left[\begin{array}{lll} {}\end{array}\right] A−1=[]LATXE:\LaTeX :LATEX:\begin{equation} \left[\begin{array}{ccc} {}\end{array}\right] \end{equation}adj(A)=[] \mathrm{adj(A)} = \left[\begin{array}{lll} {}\end{array}\right] adj(A)=[]LATXE:\LaTeX :LATEX:\begin{equation} \left[\begin{array}{ccc} {}\end{array}\right] \end{equation}det(A)=\mathrm{det(A)}= det(A)=Eigen StuffA=[469696942696969420]\mathrm{A} = \left[\begin{array}{lll} 4 & 69 & 69 \\ 69 & 42 & 69 \\ 69 & 69 & 420 \end{array}\right] A=⎣⎡469696942696969420⎦⎤Calcular Solo para matrices simétricas↓ \downarrow↓EigenValues=[] \mathrm{Eigen Values} = \left[\begin{array}{lll} {}\end{array}\right] EigenValues=[] Derivadas dx(sin(x)69cos(x)420)\mathrm{d_x}( \sin(x)^{69}\cos(x)^{420} ) dx(sin(x)69cos(x)420)Calcular Calculadora solar δ=23.45sin(360(120−80)365)\delta=23.45\sin(\frac{360(120 -80)}{365})δ=23.45sin(365360(120−80))ω=15×(12−8)\omega=15\times(12-8)ω=15×(12−8)ϕ=21\phi = 21ϕ=21Calcular δ=\delta = δ=ω=\omega = ω=α= \alpha = α=ψ= \psi = ψ=
