Call me crazy, but somehow I can't shake the feeling that there was some kind of a
sketch or a drawing near this question wherever you copied it from, and that there
was something in the sketch labeled 'x' and another something in it labeled 'a'.
There's no way I can do anything with the question if I can't see the sketch that
goes with it ... that's why it's printed there.
1/x can equal anything. There isn't anothe side, so we don't have enough informaiton to answer that. However, the bigger the value of x in 1/x, the smaller 1/x will be. The smaller the value of x, the bigger 1/x will be.
That completely depends on the value of 'x', and whenever the value of 'x' changes, [ 2x + 2 ] also changes immediately.
-52x <= 7 (-52x)/(-52) >= 7/(-52) {divide both sides by -52, and reverse the inequality when dividing by a negative. x >= -7/52 There is no largest integer value for x. If the question was ... greater than or equal to ... then the solution would be x <= -7/52, and the largest integer value would be -1.
x/35 =7 (x/35) *35 = 7 * 35 {multiply both sides by 7} x = 7 * 35 x = 245
Well that's easy put the three in place of the "X" and add or what ever it says
When x is equal to 10, the value of 1/2x is 5.
40% equal to fraction 30 what is value of X?
The value of x works out as 10
depend on x value
x2 is an expression that can be read "x squared" or "x to the power of two". It is equal to x times x.
It depents from the value of x.If x>0 then, |x|=xIf x
Only if the value of x is zero
The answer depends on the value of 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. 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.
Then y = 3x.
11
If: 12+x = 10 then the value of x is -2