Q: Is the value of 2x always smaller than the value of x2?

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2 - 2x ≤ 32 - 2 - 2x ≤ 3 - 2-2x ≤ 1-2x/-2 ≥ 1/-2x ≥ -1/2 orx ≥ -0.5-1 ≤ 2x + 1 < 4-1 - 1 ≤ 2x + 1 - 1 < 4 - 1-2 ≤ 2x < 3-2/2 ≤ 2x/2 < 3/2-1 ≤ x < 1.5So the solution set for both inequalities is -0.5 ≤ x < 1.5. The two integers that satisfy both the inequalities are 0 and 1.

y = 2x + 5 17 = 2x + 5 X = 6

An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.

2x2 + 2x - 8 = 2(x2 + x - 4). This can take any value greater than or equal to -8.5

No, they can't because expressions are not set equal to anything, or in this case, less than or greater than a value. For example, 2x would be an expression, but 2x=6 would NOT be an expression. So 2x < 6 is not an expression either.

Related questions

Mercury is more than 2x smaller than Earth.

Not if x is negative. If x is complex it's hard to define.

No. It is larger by 2x.

2x-14=0 2x=14x=7

2 - 2x ≤ 32 - 2 - 2x ≤ 3 - 2-2x ≤ 1-2x/-2 ≥ 1/-2x ≥ -1/2 orx ≥ -0.5-1 ≤ 2x + 1 < 4-1 - 1 ≤ 2x + 1 - 1 < 4 - 1-2 ≤ 2x < 3-2/2 ≤ 2x/2 < 3/2-1 ≤ x < 1.5So the solution set for both inequalities is -0.5 ≤ x < 1.5. The two integers that satisfy both the inequalities are 0 and 1.

An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.An identity is an equation that is always true, no matter what value you replace for the variable.To give a simple example, 2x + 3x = 5x is true for any x.

y = 2x + 5 17 = 2x + 5 X = 6

Quadrant 4 is completely shaded. In quadrant 4, y will always be less than 2x because y is negative and 2x is positive.

2x2 + 2x - 8 = 2(x2 + x - 4). This can take any value greater than or equal to -8.5

No, they can't because expressions are not set equal to anything, or in this case, less than or greater than a value. For example, 2x would be an expression, but 2x=6 would NOT be an expression. So 2x < 6 is not an expression either.

Let's call the larger number 2x+3 and the smaller number x: 2x+3+x = 36 2x+x = 36-3 3x = 33 x = 11 So: 2*11+3 = 25 which is the value of the larger number.

(2x)2 = 4 x2 Its numerical value depends on the value of 'x'.