They can be any values in the domain of the function.
The range of a function (or equation) is the set of all Y values it reaches. For example, Y = X+2 would reach all real values of Y over the course of all X values. However, Y = X2 would have a range of Y greater than or equal to 0 because no matter what value of X is put in, Y will never be negative. MORE ANSWER...Equations are input and output. Your input value is x, the output value is y. All allowd values of x create an output in y. The x inputs are the "domain values", the y outputs, as a result of x are the "range" values.
That would be the domain.
domain
The answer depends on the values of x and y. The answer depends on the values of x and y. The answer depends on the values of x and y. The answer depends on the values of x and y.
The "x values that work are the domain numbers like for y=x+1 would be any real number. But, y= sqrx x would have to be non-negative.
Inputs, perhaps!
The range of a function (or equation) is the set of all Y values it reaches. For example, Y = X+2 would reach all real values of Y over the course of all X values. However, Y = X2 would have a range of Y greater than or equal to 0 because no matter what value of X is put in, Y will never be negative. MORE ANSWER...Equations are input and output. Your input value is x, the output value is y. All allowd values of x create an output in y. The x inputs are the "domain values", the y outputs, as a result of x are the "range" values.
Domain
That would be the domain.
domain
Not necessarily.
The domain of a function encompasses all of the possible inputs of that function. On a Cartesian graph, this would be the x axis. For example, the function y = 2x has a domain of all values of x. The function y = x/2x has a domain of all values except zero, because 2 times zero is zero, which makes the function unsolvable.
The "x values that work are the domain numbers like for y=x+1 would be any real number. But, y= sqrx x would have to be non-negative.
The answer depends on the values of x and y. The answer depends on the values of x and y. The answer depends on the values of x and y. The answer depends on the values of x and y.
There are two sets for any given function, the domain and the range. The range is the set of outputs and the set of inputs is the domain.
The domain of a function is the set of values for which the function is defined.The range is the set of possible results which you can get for the function.
ans. 3 nand gates resoon :- OR GATE :- x+y NAND GATE :- x'+y' LOGIC :-so the logic is is we apply NAND to the inputs x' and y' instead of xand y we would get x+y DESIGN PROCEDURE 1. for inverting the input x and y can be done by NAND gates , 2. take a NAND gate and pass both x in both the inputs it means x NAND x gives you x' 3. follow similar procedure for inverting y 4. and then all the outputs of those NAND gates as the inputs of another NAND gate