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The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________
- a)Axis of rotation
- b)Axis of rolling
- c)Centre of Gravity
- d)Centre of mass
Correct answer is option 'C'. Can you explain this answer?
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The total of all the masses of small particles adds up to give the tot...
The total body mass along with the product of gravity always passes through the centre of gravity. All the forces are parallel is the right answer. Thus the total sum of all these small weights add up to the total weight of the body. Which passes through the centre of gravity.
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The total of all the masses of small particles adds up to give the tot...
Centre of Gravity and Force Vector in a Composite Body
Centre of Gravity:
- The centre of gravity of a body is the point at which the entire weight of the body can be considered to act.
- It is the point where the gravitational force on the body is concentrated.
- The location of the centre of gravity depends on the distribution of mass within the body.
Force Vector:
- A force vector is a mathematical representation of a force that includes its magnitude and direction.
- It is a directed line segment representing the direction and magnitude of a force.
Total Body Mass and Small Particles:
- The total mass of a composite body is the sum of the masses of all the small particles that make up the body.
- The mass of each particle is considered to be concentrated at a point, called the particle's centre of mass.
- The location of each particle's centre of mass depends on the distribution of mass within the particle.
Centre of Gravity and Force Vector in a Composite Body:
- The total body mass of a composite body lies along with gravity at the body's centre of gravity.
- The gravitational force acting on the body can be represented as a force vector passing through the centre of gravity.
- This force vector represents the direction and magnitude of the gravitational force acting on the body.
Centre of Gravity:
- The centre of gravity of a body is the point at which the entire weight of the body can be considered to act.
- It is the point where the gravitational force on the body is concentrated.
- The location of the centre of gravity depends on the distribution of mass within the body.
Force Vector:
- A force vector is a mathematical representation of a force that includes its magnitude and direction.
- It is a directed line segment representing the direction and magnitude of a force.
Total Body Mass and Small Particles:
- The total mass of a composite body is the sum of the masses of all the small particles that make up the body.
- The mass of each particle is considered to be concentrated at a point, called the particle's centre of mass.
- The location of each particle's centre of mass depends on the distribution of mass within the particle.
Centre of Gravity and Force Vector in a Composite Body:
- The total body mass of a composite body lies along with gravity at the body's centre of gravity.
- The gravitational force acting on the body can be represented as a force vector passing through the centre of gravity.
- This force vector represents the direction and magnitude of the gravitational force acting on the body.
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The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________a)Axis of rotationb)Axis of rollingc)Centre of Gravityd)Centre of massCorrect answer is option 'C'. Can you explain this answer?
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The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________a)Axis of rotationb)Axis of rollingc)Centre of Gravityd)Centre of massCorrect answer is option 'C'. Can you explain this answer? for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Question and answers have been prepared according to the Mechanical Engineering exam syllabus. Information about The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________a)Axis of rotationb)Axis of rollingc)Centre of Gravityd)Centre of massCorrect answer is option 'C'. Can you explain this answer? covers all topics & solutions for Mechanical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________a)Axis of rotationb)Axis of rollingc)Centre of Gravityd)Centre of massCorrect answer is option 'C'. Can you explain this answer?.
The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________a)Axis of rotationb)Axis of rollingc)Centre of Gravityd)Centre of massCorrect answer is option 'C'. Can you explain this answer? for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Question and answers have been prepared according to the Mechanical Engineering exam syllabus. Information about The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________a)Axis of rotationb)Axis of rollingc)Centre of Gravityd)Centre of massCorrect answer is option 'C'. Can you explain this answer? covers all topics & solutions for Mechanical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The total of all the masses of small particles adds up to give the total body mass of the composite body. This mass lies along with gravity gives a force vector which is being passed by ________a)Axis of rotationb)Axis of rollingc)Centre of Gravityd)Centre of massCorrect answer is option 'C'. Can you explain this answer?.
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