Derivative of 1/2

The derivative of a constant, such as 1/2, is straightforward. It is commonly represented as d/dx (1/2) or (1/2)'. The value is 0 because the function does not change with respect to x.

The key concepts are mentioned below:

Constant Function: A function that does not change as x changes.

Derivative of a Constant: The derivative of any constant value is 0.

The derivative of 1/2 can be denoted as d/dx (1/2) or (1/2)'. The formula for differentiating a constant is: d/dx (1/2) = 0 This formula is applicable for any constant value.

We can derive the derivative of 1/2 using basic principles. The derivative of any constant function is 0, as explained by the following methods:

By First Principle The derivative of a constant can be proved using the First Principle, which expresses the derivative as the limit of the difference quotient. For f(x) = 1/2, its derivative can be expressed as the following limit: f'(x) = limₕ→₀ [f(x + h) - f(x)] / h

Substituting f(x) = 1/2, we have: f'(x) = limₕ→₀ [(1/2) - (1/2)] / h = limₕ→₀ 0 / h = 0

Hence, proved.

Using the Constant Rule The derivative of a constant function can be directly obtained using the rule that states the derivative of any constant is zero.

Thus, for f(x) = 1/2, we have: f'(x) = 0

When a constant function is differentiated multiple times, the results remain zero. Higher-order derivatives of a constant can be understood similarly to the first derivative. For instance, consider a car moving at a constant speed; the change in speed is zero, and the change in the rate of change is also zero.

For the first derivative, we write f′(x), indicating no change in the function. The second derivative, f′′(x), is derived from the first derivative and remains zero. The third derivative, f′′′(x), and subsequent derivatives continue this pattern.

A constant function like 1/2 does not have any points of discontinuity or undefined behavior, as it remains constant for all x.

• Derivative: The derivative of a function represents how the function changes in response to a change in x.

• Constant Function: A function that does not change as x changes; its derivative is always zero.

• First Derivative: The initial result of differentiating a function, showing the rate of change.

• Higher-Order Derivative: Derivatives obtained from differentiating a function multiple times.

• Constant Rule: A principle stating that the derivative of any constant value is zero.