y4
It is: (x-y)4
No.
Fourth roots are the inverse operation of raising a number to the fourth power. For a given number, the fourth root is a number that, when raised to the fourth power, equals the original number. For example, the fourth root of 16 is 2, since 2^4 = 16. In mathematical notation, the fourth root of a number x is denoted as √√x or x^(1/4).
To model a situation where ( y ) varies inversely with the fourth power of ( x ), you can use the equation ( y = \frac{k}{x^4} ), where ( k ) is a constant. This means that as ( x ) increases, ( y ) decreases in proportion to the fourth power of ( x ), and vice versa. The constant ( k ) can be determined based on specific conditions or data points related to the situation.
It's an expression for a number, which you'd write as [ 560 x4 y2 ],and whose value depends on the values of 'x' and 'y'.
It is: (x-y)4
x to the 5th power times y to the fourth power
fourth term of X-Y to the sixth power
No.
Fourth roots are the inverse operation of raising a number to the fourth power. For a given number, the fourth root is a number that, when raised to the fourth power, equals the original number. For example, the fourth root of 16 is 2, since 2^4 = 16. In mathematical notation, the fourth root of a number x is denoted as √√x or x^(1/4).
It's an expression for a number, which you'd write as [ 560 x4 y2 ],and whose value depends on the values of 'x' and 'y'.
The expression ( 2x^4 \cdot y^4 \cdot 3 ) can be simplified by multiplying the constants and combining the variable terms. This results in ( 6x^4y^4 ). Therefore, ( 2x^4 \cdot y^4 \cdot 3 = 6x^4y^4 ).
The GCF is 15x^2y^2
Two to the fourth power times 5 to the fourth power equals 10,000
11y(y - 1)(2y^2 + 2y - 1)
The answer to 200 to the fourth power is 1,600,000,000
No, it is not.