An identity equation has infinite solutions.
Infinitely many
2
It has infinitely many solutions.
There is no equation (or inequality) in the question and so there cannot be any solutions.
There are infinitely many solutions to 11x - 99 = 11(x - 9)
0 = 0 is an identity and not an equation. Equations have solutions, identities do not.
If the equation is an identity.
Strictly speaking the above equation is a tautological equation or an IDENTITY. An identity is true for all values of any variables that appear in it. Thus, the above "equation" is true for all value of x. - that is, it has infinitely many solutions.
16 = 16 is an identity, not an equation. An identity does not have solutions.
The equation or a system of equations having infinite solutions is called identity/identities. (a+b)^2=a^2+2ab+b^2 is an identity. It has infinite solutions. The equation is true for all values of a and b.
If the process of substituting leads to an identity rather than an equation then the system has infinitely many solutions.
The equation or a system of equations having infinite solutions is called identity/identities. (a+b)^2=a^2+2ab+b^2 is an identity. It has infinite solutions. The equation is true for all values of a and b.
It will depend on the equation.
If the discriminant of a quadratic equation is less then 0 then it will have no real solutions.
If the highest degree of an equation is 3, then the equation must have 3 solutions. Solutions can be: 1) 3 real solutions 2) one real and two imaginary solutions.
It has the following solutions.
The quadratic equation will have two solutions.