Ch.1 - Matter, Measurement & Problem Solving

Problem 111

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Chapter 1, Problem 111

Force is defined as mass times acceleration. Starting with SI base units, derive a unit for force. Using SI prefixes, suggest a convenient unit for the force resulting from a collision with a 10-ton trailer truck moving at 55 mi per hour and for the force resulting from the collision of a molecule of mass around 10 - 20 kg moving almost at the speed of light (3×10⁸ m/s) with the wall of its container. (Assume a 1-second deceleration time for both collisions.)

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Start by recalling the formula for force: $ F = m \cdot a $, where $ m $ is mass and $ a $ is acceleration.

Express mass $ m $ in terms of its SI base unit, which is kilograms (kg).

Express acceleration $ a $ in terms of its SI base units: $ a = \frac{\text{change in velocity}}{\text{time}} = \frac{\text{m/s}}{\text{s}} = \text{m/s}^2 $.

Combine these to derive the SI unit for force: $ \text{kg} \cdot \text{m/s}^2 $, which is defined as a newton (N).

For the truck collision, convert the truck's mass to kilograms and speed to meters per second, then calculate the force using $ F = m \cdot a $ with $ a = \frac{\text{velocity}}{\text{time}} $. For the molecule, use its mass and speed similarly, considering the deceleration time.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Newton's Second Law of Motion

Newton's Second Law states that the force acting on an object is equal to the mass of that object multiplied by its acceleration (F = ma). This fundamental principle allows us to calculate the force exerted during a collision by determining the change in velocity over a specified time period, which is essential for understanding the dynamics of both macroscopic and microscopic collisions.

SI Units and Prefixes

The International System of Units (SI) provides a standardized set of units for measurement, including the unit of force, the Newton (N), which is defined as 1 kg·m/s². SI prefixes, such as kilo- (10³) and mega- (10⁶), help express large or small quantities conveniently, making it easier to communicate measurements in scientific contexts, such as the forces involved in collisions.

Momentum and Impulse

Momentum is the product of an object's mass and its velocity, and it is conserved in isolated systems. Impulse, defined as the change in momentum, is equal to the force applied multiplied by the time duration of that force. Understanding these concepts is crucial for analyzing collisions, as they help quantify the effects of forces during rapid interactions, such as those described in the question.

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