زهرة الرومان

ولكموووووووووووووو
اهلا و سهلا بزائرنا الكريم يشرفنا تسجيلك و انظمامك الينا و الى اسرتنا
شاكرين لك مرورك و تشريفك

زهرة الرومان

هل تريد التفاعل مع هذه المساهمة؟ كل ما عليك هو إنشاء حساب جديد ببضع خطوات أو تسجيل الدخول للمتابعة.
زهرة الرومان

منتدى عام


    Square Roots: Introduction & Simplification

    Admin
    Admin
    Admin


    عدد المساهمات : 1332
    السٌّمعَة : 9
    تاريخ التسجيل : 30/07/2010
    العمر : 32

    Square Roots: Introduction & Simplification Empty Square Roots: Introduction & Simplification

    مُساهمة من طرف Admin الإثنين أكتوبر 25, 2010 2:14 am

    "Roots" (or "radicals") are the "opposite" operation of applying exponents; you can "undo" a power with a radical, and a radical can "undo" a power. For instance, if you square 2, you get 4, and if you "take the square root of 4", you get 2; if you square 3, you get 9, and if you "take the square root of 9", you get 3: Copyright © Elizabeth Stapel 1999-2009 All Rights Reserved



    The "" symbol is called the "radical"symbol. (Technically, just the "check mark" part of the symbol is the radical; the line across the top is called the "vinculum".) The expression " " is read as "root nine", "radical nine", or "the square root of nine".

    You can raise numbers to powers other than just 2; you can cube things, raise them to the fourth power, raise them to the 100th power, and so forth. In the same way, you can take the cube root of a number, the fourth root, the 100th root, and so forth. To indicate some root other than a square root, you use the same radical sybmol, but you insert a number into the radical, tucking it into the "check mark" part. For instance:



    The "3" in the above is the "index" of the radical; the "64" is "the argument of the radical", also called "the radicand". Since most radicals you see are square roots, the index is not included on square roots. While " " would be technically correct, I've never seen it used.

    a square (second) root is written as

    a cube (third) root is written as

    a fourth root is written as

    a fifth root is written as:

    You can take any counting number, square it, and end up with a nice neat number. But the process doesn't always work going backwards. For instance, consider , the square root of three. There is no nice neat number that squares to 3, so cannot be simplified as a nice whole number. You can deal with in either of two ways: If you are doing a word problem and are trying to find, say, the rate of speed, then you would grab your calculator and find the decimal approximation of :



    Then you'd round the above value to an appropriate number of decimal places and use a real-world unit or label, like "1.7 ft/sec". On the other hand, you may be solving a plain old math exercise, something with no "practical" application. Then they would almost certainly want the "exact" value, so you'd give your answer as being simply "".


    --------------------------------------------------------------------------------

    Simplifying Square-Root Terms

    To simplify a square root, you "take out" anything that is a "perfect square"; that is, you take out front anything that has two copies of the same factor:







    Note that the value of the simplified radical is positive. While either of +2 and –2 might have been squared to get 4, "the square root of four" is defined to be only the positive option, +2. When you solve the equation x2 = 4, you are trying to find all possible values that might have been squared to get 4. But when you are just simplifying the expression , the ONLY answer is "2"; this positive result is called the "principal" root. (Other roots, such as –2, can be defined using graduate-school topics like "complex analysis" and "branch functions", but you won't need that for years, if ever.)

    Sometimes the argument of a radical is not a perfect square, but it may "contain" a square amongst its factors. To simplify, you need to factor the argument and "take out" anything that is a square; you find anything you've got a pair of inside the radical, and you move it out front. To do this, you use the fact that you can switch between the multiplication of roots and the root of a multiplication. In other words, radicals can be manipulated similarly to powers:



    Simplify
    There are various ways I can approach this simplification. One would be by factoring and then taking two different square roots:



    The square root of 144 is 12.

    You probably already knew that 122 = 144, so obviously the square root of 144 must be 12. But my steps above show how you can swich back and forth between the different formats (multiplication inside one radical, versus multiplication of two radicals) to help in the simplification process.

    Simplify
    Neither of 24 and 6 is a square, but what happens if I multiply them inside one radical?



    Simplify


    This answer is pronounced as "five, root three". It is proper form to put the radical at the end of the expression. Not only is "" non-standard, it is very hard to read, especially when hand-written. And write neatly, because "" is not the same as "".

    You don't have to factor the radicand all the way down to prime numbers when simplifying. As soon as you see a pair of factors or a perfect square, you've gone far enough.

    Simplify
    Since 72 factors as 2×36, and since 36 is a perfect square, then:



    Since there had been only one copy of the factor 2 in the factorization 2×6×6, that left-over 2 couldn't come out of the radical and had to be left behind.

    Simplify

      الوقت/التاريخ الآن هو الخميس نوفمبر 21, 2024 5:47 am