In the equation y = 2x + 5, if x = 0.6, you can substitute 0.6 in place of x to find the value of y. Therefore, y = 2(0.6) + 5. Simplifying this expression, y = 1.2 + 5 = 6.2. Hence, the value of y is 6.2 when x is equal to 0.6 in the given equation.
The value of x + y is indeterminate. You need the values of both x and y to determine x + y.
In most cases, x is independent and y is dependent. That is, you choose the value of x, but this x-value will decide the corresponding y-value.
It will be 16.
if x:=x(y) then y=0 => x=x(0)
that means the value of x is same as the value of y
In expressions such as "x-y", both "x" and "y" can have any value. The value of "x-y" will depend on what the value of "x" and the value of "y" are.
Oh, what a lovely question! When x is 3, we simply substitute x with 3 in the equation to find the value of y. It's like adding a happy little tree to your painting - just plug in 3 for x and see what beautiful value of y comes out!
If you mean: x+y = 30 and the value of y is 15 then the value of x is also 15
The value of x + y is indeterminate. You need the values of both x and y to determine x + y.
y is a function of x iffor each value of x (in the domain) there is a value of y, andfor each value of y (in the range) there is at most one value of x.
if 2x + y = 7, what is the value of y when x = 3?
y = 100 - 4x ( a ) Find the value of y when x = 20.
If: y = x+b then y-x = b
In most cases, x is independent and y is dependent. That is, you choose the value of x, but this x-value will decide the corresponding y-value.
Y = X - 16 X= Y + 16 X is the original value. Y is the new value of the original value - 16.
y += x means the value y+x is first calculated, and the resulting value is then assigned to y. It is equivalent to y = y+x
It will be 16.