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Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand | Science Class 9 PDF Download

Our Objective

To observe and compare the pressure exerted by a solid iron cuboid on sand while resting on its three different faces and to calculate the pressure exerted in the three cases. 

The Theory

Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand | Science Class 9

To study and compare the pressure exerted by a solid iron cuboid on sand, we need to find its mass and weight.


Can you define the Mass of an object?

The mass of an object is a fundamental property of the object; a numerical measure of its inertia; a fundamental measure of the amount of matter in the object. The usual symbol for mass is 'm' and its SI unit is kilogram.

In everyday usage, mass is often referred to as weight, the units of which are often taken to be kilograms. In scientific use, weight is the gravitational force acting on a given body, while mass is an intrinsic property of this body.

On the surface of the Earth, the weight W of an object is related to its mass m by W = m.


Having defined Mass, what about the Weight of an object?

In science, the weight of an object is the force on the object due to gravity. Its magnitude (a scalar quantity), often denoted by W, is the product of the mass m of the object and the magnitude of the local gravitational acceleration g. Thus, W = mg. Since the weight is a force, its SI unit is Newton.

Simply stated, weight is the force acting vertically downward. The weight of an object is the force with which it is attracted towards the earth, that is:

 F = m x g

For an object in free fall, when gravity is the only force acting on it, the expression for weight follows Newton's Second Law.

W = F, thus:

W = m x g

Here ‘g’ is the Earth's gravitational field strength, equal to about 9.81 m s−2.

An object's weight depends on its environment, while its mass does not. The SI unit of weight is the same as that of force, that is, Newton (N).The force acting on an object perpendicular to the surface is called thrust. The effect of thrust depends on the area on which it acts. Thus:

Thrust = F = m x g

The thrust on unit area is called pressure. Thus:

Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand | Science Class 9
      

SI unit of pressure is N/m2 or Nm-2 (Newton per square metre).

In honour of scientist Blaise Pascal, the SI unit of pressure is called pascal, denoted by Pa.


Learning outcomes

  1. The depression in sand is greater when the solid iron cuboid is placed on its least surface area.

  2. The pressure exerted by the smallest surface area is greater than the other surfaces with larger areas.

  3. Thus, the students understood the theories of force, area pressure, depression and their dependence on each other. 

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FAQs on Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand - Science Class 9

1. What is the purpose of observing and comparing the pressure exerted by a solid iron cuboid on sand?
Ans. The purpose of this observation is to understand and compare the pressure exerted by a solid iron cuboid on sand, which can help us understand the concept of pressure distribution and its effects on different surfaces.
2. How is pressure calculated in this experiment?
Ans. Pressure is calculated by dividing the force exerted on the surface by the area over which the force is distributed. In this experiment, the force exerted by the solid iron cuboid on the sand is divided by the surface area of contact to determine the pressure exerted.
3. What factors can affect the pressure exerted by the solid iron cuboid on the sand?
Ans. Several factors can affect the pressure exerted, including the weight of the iron cuboid, the surface area of contact between the cuboid and the sand, and the nature and properties of the sand itself.
4. How can the pressure exerted by the solid iron cuboid on the sand be compared?
Ans. The pressure exerted by the solid iron cuboid on the sand can be compared by measuring the force exerted and the surface area of contact for different cuboid sizes or weights. By comparing the pressure values, we can analyze the relationship between the weight of the cuboid and the pressure exerted on the sand.
5. What are the practical applications of understanding pressure distribution in this experiment?
Ans. Understanding pressure distribution can have practical applications in various fields. For example, it can help engineers design structures that distribute weight evenly to prevent excessive pressure on certain areas. It can also be useful in fields such as civil engineering, geotechnical engineering, and materials science, where knowledge of pressure distribution is crucial for building safe and stable structures.
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Nov 15, 2024 Last updated
Document Description: Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand for Class 9 2024 is part of Science Class 9 preparation. The notes and questions for Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand have been prepared according to the Class 9 exam syllabus. Information about Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand covers topics like and Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand Example, for Class 9 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises and tests below for Theory - To observe and compare the pressure exerted by a solid iron cuboid on sand.
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