3x<=21
Divide both sides of the equation by 3.
x<=7
You normally "solve" something when there is a variable involved. In this case there is no variable. All you have to do is decide whether it is true or false. If this is derived from an original equation (or, in this case, inequality) which involved variables, then if the equation (or inequality) without variables is true, it means it is true for ANY value of the variable. If it is false, the original equation (or inequality) can't be satisfied by any value of the variable.
fewer than (if the variable is discrete)not greater than or equal to.The following are NOT valid alternatives:not more than (could be equal)not as many as (could be less than or more than)not as much as (could be less than or more than)
The dependent variable, y, is equal to 7 less than twice the independent variable, x.
The solution set for the equation 7 * w <= 28 (where <= means less than or equal to) with regard to the unknown variable w, is the set of numbers less than or equal to 4. So the answer is yes since 4 is less than or equal to 4, or simply yes since 7 * 4 = 28 which is smaller than or equal to 28.
Less than Less than or equal to Equal to Greater than Greater than or equal to
91
Sure. You can always 'solve for' a variable, and if it happens to be the only variable in the equation, than that's how you solve the equation.
You normally "solve" something when there is a variable involved. In this case there is no variable. All you have to do is decide whether it is true or false. If this is derived from an original equation (or, in this case, inequality) which involved variables, then if the equation (or inequality) without variables is true, it means it is true for ANY value of the variable. If it is false, the original equation (or inequality) can't be satisfied by any value of the variable.
The unknown value of the variable could be greater, less or even equal to 12.50
The cumulative frequency distribution for a value x of a random variable X, is a count of the number of observations in which X is less than or equal to x. The cumulative frequency distribution for a value x of a random variable X, is a count of the number of observations in which X is less than or equal to x. The cumulative frequency distribution for a value x of a random variable X, is a count of the number of observations in which X is less than or equal to x. The cumulative frequency distribution for a value x of a random variable X, is a count of the number of observations in which X is less than or equal to x.
If the number is n then twice the number is 2n and 7 less than twice the number is 2n - 7This could also be a boolean variable based on another variable. If the number is less than or equal to 3.5, the variable is false. Otherwise, it is true.
fewer than (if the variable is discrete)not greater than or equal to.The following are NOT valid alternatives:not more than (could be equal)not as many as (could be less than or more than)not as much as (could be less than or more than)
wrong quesion
An inequality requires an inequality sign, usually "less than", "less-than-or-equal", "greater than", or "greater than or equal". Assuming one of these inequality signs is between the "4x" and the "12", for example: 4x < 12, just divide both sides by 4. Just as when you solve equations, the idea is to isolate the variable on one side.
The dependent variable, y, is equal to 7 less than twice the independent variable, x.
The solution set for the equation 7 * w <= 28 (where <= means less than or equal to) with regard to the unknown variable w, is the set of numbers less than or equal to 4. So the answer is yes since 4 is less than or equal to 4, or simply yes since 7 * 4 = 28 which is smaller than or equal to 28.
You can use the Not function or the <> operator, which is the < and the > beside each other. To see if the values in A1 and A2 are not equal to each other, you can type: =A1<>A2 or =Not(A1=A2) In each case they will either give you TRUE if they are not equal or FALSE if they are equal, in the cell that you enter the formula into.