Derivative of x/2

The derivative of the function x/2 is straightforward. It is commonly represented as d/dx (x/2) or (x/2)', and its value is 1/2. The function x/2 is linear and has a constant rate of change, indicated by its derivative. The key concepts are mentioned below: Linear Function: (x/2 is a linear function with a constant rate of change). Basic Derivative Rule: Rule for differentiating x/2.

The derivative of x/2 can be denoted as d/dx (x/2) or (x/2)'. The formula we use to differentiate x/2 is: d/dx (x/2) = 1/2 The formula applies to all x.

We can derive the derivative of x/2 using basic principles of differentiation. To show this, we will use the rules of differentiation. There are several straightforward methods we use to prove this: By Constant Multiple Rule The derivative of x/2 can be derived using the constant multiple rule, which states that the derivative of a constant multiplied by a function is the constant multiplied by the derivative of the function. Given that f(x) = x/2, we have a constant 1/2 multiplied by x. Using the constant multiple rule, f'(x) = 1/2 * d/dx (x) = 1/2 * 1 = 1/2 Hence, proved.

When a function is differentiated several times, the derivatives obtained are referred to as higher-order derivatives. Higher-order derivatives can provide insight into the behavior of functions. For a linear function like x/2, the first derivative is a constant, and all higher-order derivatives are zero. For the first derivative of a function, we write f′(x), indicating a constant rate of change. The second derivative, f′′(x), and any further derivatives of a linear function like x/2 are zero.

For the function x/2, there are no points where the derivative is undefined within its domain as it is a linear function. At any point x, the derivative of x/2 remains 1/2.

Derivative: The derivative of a function indicates how the function changes in response to a slight change in x. Linear Function: A function of the form ax + b, where the graph is a straight line. Constant Multiple Rule: A rule stating that the derivative of a constant multiplied by a function is the constant multiplied by the derivative of the function. Second Derivative: The derivative of the derivative of a function, indicating the rate of change of the rate of change. Uniform Motion: Motion at a constant speed in a straight line.