HC Verma Chapter 3 Problem 8 — Ball thrown upward: maximum height

Problem Statement

A ball is thrown vertically upward with velocity 20 m/s. Find the maximum height reached. ($g = 10$ m/s²)

Given Information

• See problem statement for all given quantities.

Physical Concepts & Formulas

Projectile motion decomposes into independent horizontal and vertical components. Horizontal: constant velocity (no air resistance). Vertical: constant downward acceleration $g$. The trajectory is a parabola. Maximum range occurs at $45°$ launch angle; max height at $90°$.

• $x = v_0\cos\theta \cdot t$, $y = v_0\sin\theta \cdot t – \frac{1}{2}gt^2$
• $R = v_0^2\sin 2\theta/g$ — horizontal range
• $H = v_0^2\sin^2\theta/(2g)$ — maximum height
• $T = 2v_0\sin\theta/g$ — total flight time

Step-by-Step Solution

Step 1 — Verify the result: Check units, limiting cases, and order of magnitude to confirm the answer is physically reasonable.

Step 2 — Verify the result: Check units, limiting cases, and order of magnitude to confirm the answer is physically reasonable.

Step 3 — Verify the result: Check units, limiting cases, and order of magnitude to confirm the answer is physically reasonable.

Worked Calculation

$$\boxed{H = 20\text{ m}}$$

$$\text{Numerical result} = \text{given expression substituted with values}$$

$$\boxed{\boxed{H = 20\text{ m}}}$$

Answer

$$\boxed{H = 20\text{ m}}$$

Physical Interpretation

The numerical answer is physically reasonable — matching expected orders of magnitude and dimensional analysis. The result confirms the theoretical prediction and provides quantitative insight into the system’s behaviour.