## When f ‘(x) is positive, f(x) is

### When f'(x) is positive, it means that the derivative of the function f(x) with respect to x is positive

When f'(x) is positive, it means that the derivative of the function f(x) with respect to x is positive. The derivative measures the rate of change of the function at each point.

In simple terms, when f'(x) is positive, it indicates that the function is increasing at that particular point. This means that as x increases, the corresponding values of f(x) also increase.

Here are a few key points to understand:

1. Slope of the tangent line: The derivative f'(x) represents the slope of the tangent line to the graph of f(x) at any given point. When f'(x) is positive, the tangent line has a positive slope, indicating an upward slope from left to right.

2. Increasing function: If f'(x) is positive for all x in a given interval, it means that the function f(x) is increasing over that interval. This implies that as you move from left to right along the x-axis, the function values of f(x) are getting larger.

3. Turning points: At points where f'(x) changes sign (positive to negative or negative to positive), there may be a local maximum or minimum of the function. When f'(x) is positive and then changes to negative, it indicates a turning point where the function changes from increasing to decreasing.

4. Monotonicity: A function that has a positive derivative is called a monotonically increasing function. It means that the function does not have any local maximum or minimum; it keeps increasing indefinitely.

Overall, when f'(x) is positive, it signifies that the function f(x) is increasing, either locally or over a given interval.

##### More Answers:

Understanding the Significance of a Negative f ‘(x) | The Behavior and Slope of a Math Function ExplainedUnderstanding the Significance of a Change in Slope | From Decreasing to Increasing Rate of Change

Understanding the Derivative in Calculus | An Alternate Definition Using Limits