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Flashcards: Laws of Motion
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Page 1 Laws of Motion Flash cards Page 2 Laws of Motion Flash cards Newton’s first law of motion According to this law, every body continues in its state of rest or motion in a straight line unless it is compelled by external force to change that state. (i) This law is also called law of inertia. Inertia is a property by virtue of which a body opposes the change in the state of rest or motion. (ii) Force is such a factor, which is essential for change in translatory motion of a body. (iii) The first law of motion defines the force. Page 3 Laws of Motion Flash cards Newton’s first law of motion According to this law, every body continues in its state of rest or motion in a straight line unless it is compelled by external force to change that state. (i) This law is also called law of inertia. Inertia is a property by virtue of which a body opposes the change in the state of rest or motion. (ii) Force is such a factor, which is essential for change in translatory motion of a body. (iii) The first law of motion defines the force. Examples of law of inertia (a) To remove the dust particles from a cloth by shaking it (b) Banking of the passengers (towards the motion of bus), sitting in a bus on applying the sudden brakes. Page 4 Laws of Motion Flash cards Newton’s first law of motion According to this law, every body continues in its state of rest or motion in a straight line unless it is compelled by external force to change that state. (i) This law is also called law of inertia. Inertia is a property by virtue of which a body opposes the change in the state of rest or motion. (ii) Force is such a factor, which is essential for change in translatory motion of a body. (iii) The first law of motion defines the force. Examples of law of inertia (a) To remove the dust particles from a cloth by shaking it (b) Banking of the passengers (towards the motion of bus), sitting in a bus on applying the sudden brakes. Newton’s second law of motion According to this law, the rate of change of momentum (mass × velocity) of a body is proportional to the impressed force and it takes place in the direction of the force. Page 5 Laws of Motion Flash cards Newton’s first law of motion According to this law, every body continues in its state of rest or motion in a straight line unless it is compelled by external force to change that state. (i) This law is also called law of inertia. Inertia is a property by virtue of which a body opposes the change in the state of rest or motion. (ii) Force is such a factor, which is essential for change in translatory motion of a body. (iii) The first law of motion defines the force. Examples of law of inertia (a) To remove the dust particles from a cloth by shaking it (b) Banking of the passengers (towards the motion of bus), sitting in a bus on applying the sudden brakes. Newton’s second law of motion According to this law, the rate of change of momentum (mass × velocity) of a body is proportional to the impressed force and it takes place in the direction of the force. Mathematical form of Newton’s second law Mathematically (Defining force in such a way that k =1) (if mass is constant) In scalar form, F = maRead More
FAQs on Flashcards: Laws of Motion
| 1. What's the difference between Newton's first law and second law of motion? |  |
Ans. Newton's first law states that an object at rest stays at rest unless an external force acts on it, while Newton's second law quantifies how force causes acceleration using F=ma. The first law describes the tendency of objects to resist motion changes (inertia), whereas the second law explains the mathematical relationship between force, mass, and acceleration in producing that change.
| 2. How do I know when to apply Newton's third law in a problem? | |
Ans. Newton's third law applies whenever two objects interact-action and reaction forces always occur simultaneously and in opposite directions. Identify pairs of interacting bodies: if object A exerts force on object B, then B exerts an equal and opposite force on A. These paired forces act on different objects and never cancel each other out during calculations.
| 3. Why does a heavier object need more force to accelerate than a lighter one? | |
Ans. Mass represents an object's resistance to acceleration, called inertia. According to Newton's second law (F=ma), for the same acceleration, greater mass requires proportionally greater force. A heavier object possesses more inertia, meaning it naturally resists changes in motion more strongly than a lighter object, so more force is needed to overcome this resistance.
| 4. What's the real difference between mass and weight in the laws of motion? | |
Ans. Mass is the amount of matter in an object and remains constant everywhere; weight is the gravitational force acting on that mass (W=mg) and varies with location. In Newton's laws, mass determines inertia and resistance to acceleration, while weight is a force quantity. Understanding this distinction is crucial because mass, not weight, appears in F=ma calculations.
| 5. How do friction and normal forces relate to Newton's laws in everyday situations? | |
Ans. Friction and normal forces are contact forces that obey Newton's laws-they represent interactions between surfaces. Normal force acts perpendicular to surfaces and balances weight on horizontal surfaces; friction opposes motion tangentially. Both follow Newton's third law as reaction forces and must be included in free-body diagrams when applying F=ma to solve real-world motion problems accurately.
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Document Description: Flashcards: Laws of Motion for NEET 2026 is part of Physics Class 11 preparation. The notes and questions for Flashcards: Laws of Motion have been prepared according to the NEET exam syllabus. Information about Flashcards: Laws of Motion covers topics like and Flashcards: Laws of Motion Example, for NEET 2026 Exam. Find important definitions, questions, notes, meanings, examples, exercises and tests below for Flashcards: Laws of Motion.
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