yes
If I understand the question correctly, it is when the algebraic equation (or inequality) is true.
If you're talking about middle-school algebra, the answer is yes.
An expression is the algebraic representation of a number - an expression has a numeric value.An equation is an algebraic statement claiming that two expressions have the same numeric value. The equation has a Boolean value (true or false).If two equations can be expressed in an identical manner (the same expression on both sides) - then these equations are the same equation.In order for a system of equations to have a solution, the number of different equations in the system must be equal to the number of variables in the system. If there are more distinct equations than there are variables, than the system has no solution. If there are less, then the system may have no solution, or infinitely many solutions.In the case described there is most likely an infinite number of solutions
Yes, but the converse is not true.
x+1/2 <-- Many people would answer this common answer in a heart beat but actually it is false. The real formula, which can be applied to daily life is, x+200/10/2 than put to the power of 4. This is the true formula, good luck to you.
An algebraic equation or inequality can have a solution, an algebraic expression cannot. If substituting a number in place of a variable results in the equation or inequality being a true statement, then that number is a solution of the equation or inequality.
7 less than a number is an algebraic expression. Given the number the expression can be evaluated. 7 is less than a number is a statement in the form of an inequality. It is true for some values of the number and not for others.
If I understand the question correctly, it is when the algebraic equation (or inequality) is true.
If you're talking about middle-school algebra, the answer is yes.
You first determine the algebraic numerical equilibrium ( algorythm ) and divide it by the sum of the true algebraic expression (X)-(X=?>y^Zy<~=X)Answer. Basic Pythagoras Theorem co-tangent w/equilibrium.
Two-ninths of h algebraic expression translate
An expression is the algebraic representation of a number - an expression has a numeric value.An equation is an algebraic statement claiming that two expressions have the same numeric value. The equation has a Boolean value (true or false).If two equations can be expressed in an identical manner (the same expression on both sides) - then these equations are the same equation.In order for a system of equations to have a solution, the number of different equations in the system must be equal to the number of variables in the system. If there are more distinct equations than there are variables, than the system has no solution. If there are less, then the system may have no solution, or infinitely many solutions.In the case described there is most likely an infinite number of solutions
Yes, but the converse is not true.
The question contains an expression, not an equality or inequality. An expression cannot be true (or untrue).
Yes, it is true.
In C, any non-zero expression is true and any zero expression is false.
x+1/2 <-- Many people would answer this common answer in a heart beat but actually it is false. The real formula, which can be applied to daily life is, x+200/10/2 than put to the power of 4. This is the true formula, good luck to you.