The answer will depend on what the operation is and also whether the solutions are ordered sets (eg coordinates in 4-d space) or simply numbers.
This question cannot be answered because there are no operations defined, such as +, -, x, /, and = .
If the discriminant of a quadratic equation is less then 0 then it will have no real solutions.
how many solutions does the equation have? 4x+1=5+2(2-4) a. one solution b. infinite solutions c. no solution
240 is not an equation and so the concept of solutions is meaningless.
A single linear equation in two variables has infinitely many solutions. Two linear equations in two variables will usually have a single solution - but it is also possible that they have no solution, or infinitely many solutions.
How many solutions are there to the equation , where , i = 1, 2, 3, 4, 5, is a nonnegative integer such that
None. -42 is a single integer, not an equation nor an inequality. So there are no solutions.
There are 120 solutions.
An identity equation has infinite solutions.
This question cannot be answered because there are no operations defined, such as +, -, x, /, and = .
It will depend on the equation.
If the discriminant of a quadratic equation is less then 0 then it will have no real solutions.
You may be able to give a formula that represents all the solutions. For example, the equation sin(x) = 0 where x is real, has infinitely many solutions but they can be summarised, very simply, as x = n*pi radians (180*n degrees) where n is any integer. Some solution sets are harder to summarise.You may be able to give a formula that represents all the solutions. For example, the equation sin(x) = 0 where x is real, has infinitely many solutions but they can be summarised, very simply, as x = n*pi radians (180*n degrees) where n is any integer. Some solution sets are harder to summarise.You may be able to give a formula that represents all the solutions. For example, the equation sin(x) = 0 where x is real, has infinitely many solutions but they can be summarised, very simply, as x = n*pi radians (180*n degrees) where n is any integer. Some solution sets are harder to summarise.You may be able to give a formula that represents all the solutions. For example, the equation sin(x) = 0 where x is real, has infinitely many solutions but they can be summarised, very simply, as x = n*pi radians (180*n degrees) where n is any integer. Some solution sets are harder to summarise.
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.
There is no simple method. The answer depends partly on the variable's domain. For example, 2x = 3 has no solution is x must be an integer, or y^2 = -9 has no solution if y must be a real number but if it can be a complex number, it has 2 solutions.