Whenever the terms on the two sides of the equation are different nature, then equations are known non standard form of an ordinary equation. But cannot be solved by standard procedure, non standard problems required high degree of logic, they also require the use of graphs, inverse properties of functions, inequalities.
The number of solutions of the equation `sinx=x^(2)+x+1` is

Whenever the terms on the two sides of the equation are different nature, then equations are known non standard form of an ordinary equation. But cannot be solved by standard procedure, non standard problems require high degree of logic, they also require the use of graphs, inverse properties of functions, inequalities . The number of solutions of the equation 2 cos ((x)/(2)) = 3 ^(x) + 3^(-x) is

Whenever the terms on the two sides of the equation are different nature, then equations are known non standard form of an ordinary equation. But cannot be solved by standard procedure, non standard problems require high degree of logic, they also require the use of graphs, inverse properties of functions, inequalities . The number of real solutions of the equation sin (e^(x)) = 5^(x) + 5^(x) is

Find the numbers of non-zero integral solutions of the equation |1-i|^(x) =2^(x)

Solve the following system of equations. (a) By using Cramer's rule and Matrix inversion method, when the coefficient matrix is non - singular. (b) By using Gauss-Jordan method, also determine whether the system has unique solution, or infinite number of solutions or solution and find the solution if exist. x+y+2z=1 2x+y+z=2 x+2y+2z=1

Solve the following system of equations. (a) By using Cramer's rule and Matrix inversion method, when the coefficient matrix is non - singular. (b) By using Gauss-Jordan method, also determine whether the system has unique solution, or infinite number of solutions or solution and find the solution if exist. x+y+z=9 2x+5y+7z=52 2x+y-z=0

Solve the following system of equations. (a) By using Cramer's rule and Matrix inversion method, when the coefficient matrix is non - singular. (b) By using Gauss-Jordan method, also determine whether the system has unique solution, or infinite number of solutions or solution and find the solution if exist. 2x-y+3z=9 x+y+z=6 x-y+z-2

Solve the following system of equations. (a) By using Cramer's rule and Matrix inversion method, when the coefficient matrix is non - singular. (b) By using Gauss-Jordan method, also determine whether the system has unique solution, or infinite number of solutions or solution and find the solution if exist. 5x-6y+4z=15 7x+4y-3z=19 2x+y+6z=46

Solve the following system of equations. (a) By using Cramer's rule and Matrix inversion method, when the coefficient matrix is non - singular. (b) By using Gauss-Jordan method, also determine whether the system has unique solution, or infinite number of solutions or solution and find the solution if exist. 2x+6y+11=0 6x+20y-6z+3=0 6y-18z+1=0