None, because without an equality sign the given terms can't be considered to be an equation.
The equation to represent the situation where a number increased by 10 is greater than or equal to 44 is: x + 10 ≥ 44. In this equation, x represents the unknown number. To solve for x, you would subtract 10 from both sides of the equation to isolate x, resulting in x ≥ 34. Therefore, any number that is equal to or greater than 34 would satisfy the original condition.
Three times a number is 10 less five times the number can be put in the form of an equation that looks like this: 3x = 5x-10. Now just solve for x...
You have to write an equation for this. When you do percents, you always have to convert them to decimals. (Therefore, 80% is .80 as a decimal) .80x = 8 Divide both sides of the equation by .8 and you'll get x = 10
10 less than 1000 = 1000 minus 10 = 990
x (x - 8) = 2xx2 - 8x = 2xx2 - 8x - 2x = 0x2 - 10x = 0x (x - 10) = 0The equation is a true statement if either factor = 0.x = 0(x - 10) = 0 ==> x = 10========================> Does [ x = 10 ] work ?x (x - 8) = 2x ?10 (10 - 8) = 2 (10)10 (2) = 2020 = 20 Yes.
x + 10
To determine if a point is a solution to the equation ( y - 7x = 3 ), you need to substitute the x and y coordinates of the point into the equation. If the left side equals the right side (3), then the point is a solution. For example, for the point (1, 10): substituting gives ( 10 - 7(1) = 3 ), which satisfies the equation, making (1, 10) a solution.
x/7=10
n + 2 = 10
Let's call the number "x". The given equation can be translated as: x * 3 = 2 * (x + 5). Simplifying the equation, we have: 3x = 2x + 10. Subtracting 2x from both sides gives: x = 10. So the solution to the equation is x = 10.
The equation 7 x + 14 y + 10 z = 98001 has infinite solutions. For any x and y we can have a z which satisfies this equation. For example, if we choose x=1 and y=1 then z=9798 satisfies. To have a specific solution there must be three equations for three unknowns (x,y,z), which can be solved simultaneously.
The number that you are subtracting from is called the "minuend." In a subtraction equation, the minuend is the value that is being decreased by the other number, known as the "subtrahend." For example, in the equation 10 - 4 = 6, 10 is the minuend.
To write the equation based on the given statement, let the number be represented by ( x ). The phrase "20 decreased by two times a number" translates to ( 20 - 2x ), and "10 less than three times the number" translates to ( 3x - 10 ). Therefore, the equation is: [ 20 - 2x = 3x - 10. ]
The equation to represent the situation where a number increased by 10 is greater than or equal to 44 is: x + 10 ≥ 44. In this equation, x represents the unknown number. To solve for x, you would subtract 10 from both sides of the equation to isolate x, resulting in x ≥ 34. Therefore, any number that is equal to or greater than 34 would satisfy the original condition.
5x = 10Divide each side of the equation by 5:x = 2
That word "equals" in there makes it an equation.
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