Suppose a stone is thrown vertically upward from the edge of a cliff on Earth with an initial velocity of 19.6 m/s from a height of 24.5 m above the ground. The height (in meters) of the stone above the ground t seconds after it is thrown is s(t) = -4.9t²+19.6t+24.5.
c. What is the height of the stone at the highest point?

The height of the stone is modeled by a quadratic function, which is a polynomial of degree two. In this case, the function s(t) = -4.9t² + 19.6t + 24.5 represents a parabola that opens downward due to the negative coefficient of the t² term. Understanding the properties of quadratic functions, such as their vertex and axis of symmetry, is essential for determining the maximum height of the stone.

The highest point of a downward-opening parabola, like the one described by the height function, is called the vertex. The vertex can be found using the formula t = -b/(2a), where a and b are the coefficients from the quadratic equation. This point gives the time at which the stone reaches its maximum height, which is crucial for solving the problem.

To find the maximum height of the stone, we need to evaluate the height function at the time found from the vertex calculation. The maximum value of the function s(t) corresponds to the height of the stone at its peak. This involves substituting the time back into the original height equation to find the specific height at that moment.