David Sang Solutions for Chapter: Forces and Matter, Exercise 6: End-of-chapter questions
David Sang Physics Solutions for Exercise - David Sang Solutions for Chapter: Forces and Matter, Exercise 6: End-of-chapter questions
Attempt the free practice questions on Chapter 5: Forces and Matter, Exercise 6: End-of-chapter questions with hints and solutions to strengthen your understanding. Cambridge IGCSE® Physics Coursebook Second Edition solutions are prepared by Experienced Embibe Experts.
Questions from David Sang Solutions for Chapter: Forces and Matter, Exercise 6: End-of-chapter questions with Hints & Solutions
Copy and complete the following sentence, by writing either increases / decrease in each gap.
Pressure When the force acting increases.

Copy and complete the following sentence, by writing either increases in each gap.
Pressure when the force acts on a greater area.

Copy and complete the following sentence, by writing either increases or decreases in each gap.
Pressure when you go deeper in a liquid.

Copy and complete the following sentence, by writing either increases or decreases in each gap.
Pressure when you go deeper in a liquid.

The extensions for different loads are given in the table.
Copy and complete the sentence by the inserting the appropriate word.
Within the limits of experimental accuracy, the load, the load and the extension of the spring are _____ to each other.

The diagram shows two horizontal squares and .
The atmosphere is pressing down on both and .
Name two quantities that would need to be known in order to calculate the atmospheric pressure on square .

The diagram shows two horizontal squares and .
The atmosphere is pressing down on both and .
The area of is four times that of .
Copy and complete the sentence.
The atmospheric pressure on is _____ the atmospheric pressure on .

The diagram shows two horizontal squares and .
The atmosphere is pressing down on both and .
The area of is four times that of .
Copy and complete the sentence.
The force of the atmospheric on is _____ the force of the atmospheric on .
