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Newton's Laws of Motion are applicable for every object. (Including the human body.)
Approximately 7.34847, rounded to 5dp. The square root of any number can be found through the Newton-Raphson and Secant fixed point iteration methods. See links below for more info.7.3484692
The question is based on an incorrect understanding of Newton's laws. They are applicable in both examples - at least in their simplified models.
There are the following methods:quadratic formulacompleting the squaresfactorisingnumerical methods such as Newton-Raphsongraphical methods.
yes
Advantages of secant method: 1. It converges at faster than a linear rate, so that it is more rapidly convergent than the bisection method. 2. It does not require use of the derivative of the function, something that is not available in a number of applications. 3. It requires only one function evaluation per iteration, as compared with Newton's method which requires two. Disadvantages of secant method: 1. It may not converge. 2. There is no guaranteed error bound for the computed iterates. 3. It is likely to have difficulty if f 0(α) = 0. This means the x-axis is tangent to the graph of y = f (x) at x = α. 4. Newton's method generalizes more easily to new methods for solving simultaneous systems of nonlinear equations.
That is the correct spelling of the geometric term "secant."
Sometimes
a secant is a line containing a chord. A secant is a line that intersects the circle twice(or passes through a circle)
The tangent secant angle is the angle between the tangent to a circle and the secant, when the latter is extended.
They are iterative methods, but they can be implemented as recursive methods.
Secant is a trignometric function. In a right triangle, the secant of an angle is the hypotenuse over the adjacent side. It is also the inverse of cosine. For example secant(x) = 1/cos(x)