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Settling Time and the Real roots of a system are related reciprocally.
If the venation is parallel, the root will be fibrous. If the root is tap, it will be reticulate venation
In answering this question it is important that the roots are counted along with their multiplicity. Thus a double root is counted as two roots, and so on. The degree of a polynomial is exactly the same as the number of roots that it has in the complex field. If the polynomial has real coefficients, then a polynomial with an odd degree has an odd number of roots up to the degree, while a polynomial of even degree has an even number of roots up to the degree. The difference between the degree and the number of roots is the number of complex roots which come as complex conjugate pairs.
Any number between 64 & 81 inclusive.
The whole number between the square roots of 60 and 70 is 8. 8² = 64.
There is no perfect square number between 1 and 4. On the other hand, every number is a square - or its square roots.
y² = x --> y = ±√x Because there are *two* square roots for any positive number (positive and negative) this will not be a function.
There are no two whole numbers between -0.7 and +0.7.
Green is the Color of the Ampalaya or Bitter Melon...
Grass roots have thin roots while shrub roots have thick roots.......hahaha
Between the roots 6 and 7.
Generally, no. But one of the infinite roots of 1 is 1. Otherwise one of the roots would be nearly 1. Just a whisker smaller than 1 if it was the root of a number between 0 and 1, and just a whisker larger if the number was greater than 1. If the number was less than 0, then the roots would vary from the real to the complex numbers.