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For a polynomial of the form y = p(x) (i.e., some polynomial function of x), having a y-intercept simply means that the polynomial is defined for x = 0 - and a polynomial is defined for any value of "x". As for the x-intercept: from left to right, a polynomial of even degree may come down, not quite reach zero, and then go back up again. A simple example is y = x2 + 1. Why is the situation for "x" and for "y" different? Well, the original equation is a polynomial in "x"; but if you solve for "x", you don't get a polynomial in "y".
you use PEMDAS which is parentheses exponents multiplication and division from left to right addition and subtraction from left to right
The form that has the powers sorted in order from highest on the left to lowest on the right.
after exponents comes multiplication and/or division from left to right depending on which comes first in the problem. the comes addition and/or subtraction from left to right depending on which comes first in the problem parentheses exponents multiplication division addition subtraction another way to remember order of operations is: please = parentheses excuse = exponents my = multiplication dear = division aunt = addition sally = subtraction
Amongst polynomial graphs, it is when the coefficient of the highest power of the variable (x) is negative.
19 is a prime number in its own right and needs no exponents
11 is a prime number in its own right and needs no exponents
The periodic table is arranged from left to right in the order of atomic numbers.
it is a number on the top right of the number which shows how many times to multiply the base by itself. for example: 23=2x2x2 2 is the base, 3 is the exponent.
The right hand is the proper position of the chips in Damath polynomial. The chips that are placed on the left hand are therefore in the wrong position.
a sentence for the word arranged would be... I have arranged everything in my room to be in the right place.
For a polynomial of the form y = p(x) (i.e., some polynomial function of x), having a y-intercept simply means that the polynomial is defined for x = 0 - and a polynomial is defined for any value of "x". As for the x-intercept: from left to right, a polynomial of even degree may come down, not quite reach zero, and then go back up again. A simple example is y = x2 + 1. Why is the situation for "x" and for "y" different? Well, the original equation is a polynomial in "x"; but if you solve for "x", you don't get a polynomial in "y".
Exponents are numbers that simplify the amount of times a number multiplies by itself. For example, 5^3 would be equal to 5x5x5 which equals 125. In that same number, 5 would be the base and 3 would be the exponent, (aka) the little number on the top right of another number. And yes, exponents CAN have exponents.
You can decrease your weight by eating right and exercising. my prediction is that the weather will decrease by the minute. if you do not study for the upcoming math test your grades will decrease.
price will decrease, quantity will decrease.
a row
Move the decimal to the right for positive exponents, and the left for negative exponents. 1.23 x 10^3 = 1230 1.23 x 10^-3 = 0.00123