n + 21 ≥ 7
Subtract 21 from both sides: n ≥ -14
First of all, that's not an inequality. Inequalities have a a less than, equal to, greater than, greater than or equal to, or less then of equal to. But any way, the solution would be this: 3t + 5(-4) 3t+(-20) There you go, hope you liked it!
8
no solution
No. This is not an inequality, because you need something > something_else, or less than or 'not equal' or 'greater than or equal', etc. Since it has an x cubed term, it is not a quadratic.
Solve the inequality and enter your solution as an inequality comparing the variable to the solution. -33+x<-33
There can be no answer because there is no inequality in the question.
There is one linear inequality in 2 variables: l and x. That is not enough to obtain a solution.
There can be no solution set because there is no equation nor an inequality - only an expression.There can be no solution set because there is no equation nor an inequality - only an expression.There can be no solution set because there is no equation nor an inequality - only an expression.There can be no solution set because there is no equation nor an inequality - only an expression.
There can be no solution because there is no equation (or inequality) but only an expression.
If the inequality is > (greater than) or >= (greater than or equal to), then there are an infinite number of solutions. So let the inequality be < (less than) or <= (less than or equal to) x = 1: 5y <= 16 so y = 1, 2 or 3 x = 2: 5y <= 12 so y = 1 or 2 x = 3: 5y <= 8 so y = 1 x >= 4: 5y <= 4 no solution. So whether the inequality is < or <= there are 6 ordered pairs.
x=2, 3, 4...
[ 'm' is greater than or equal to 9 ].There are an infinite number of numbers that satisfy that solution.