Test: Linear momentum of a system of particles (July 16) - NEET MCQ

# Test: Linear momentum of a system of particles (July 16) - NEET MCQ

Test Description

## 10 Questions MCQ Test Daily Test for NEET Preparation - Test: Linear momentum of a system of particles (July 16)

Test: Linear momentum of a system of particles (July 16) for NEET 2024 is part of Daily Test for NEET Preparation preparation. The Test: Linear momentum of a system of particles (July 16) questions and answers have been prepared according to the NEET exam syllabus.The Test: Linear momentum of a system of particles (July 16) MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Linear momentum of a system of particles (July 16) below.
Solutions of Test: Linear momentum of a system of particles (July 16) questions in English are available as part of our Daily Test for NEET Preparation for NEET & Test: Linear momentum of a system of particles (July 16) solutions in Hindi for Daily Test for NEET Preparation course. Download more important topics, notes, lectures and mock test series for NEET Exam by signing up for free. Attempt Test: Linear momentum of a system of particles (July 16) | 10 questions in 20 minutes | Mock test for NEET preparation | Free important questions MCQ to study Daily Test for NEET Preparation for NEET Exam | Download free PDF with solutions
Test: Linear momentum of a system of particles (July 16) - Question 1

### What is the formula for linear momentum (p)?

Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 1
Linear momentum (p) is calculated using the formula p = mv, where "m" represents the mass of an object and "v" represents its velocity. This formula is a fundamental concept in physics and is used to describe the momentum of an object.
Test: Linear momentum of a system of particles (July 16) - Question 2

### According to Newton's second law, what is the relationship between force (F) and the rate of change of momentum (dP/dt) for a single particle?

Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 2
According to Newton's second law, the force (F) acting on a single particle is equal to the rate of change of its momentum (dP/dt). This law relates the force applied to an object to how its momentum changes over time.
 1 Crore+ students have signed up on EduRev. Have you?
Test: Linear momentum of a system of particles (July 16) - Question 3

### What is the condition for a system of particles to be in equilibrium, based on Newton's second law applied to the system?

Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 3

For a system of particles to be in equilibrium, the total external force (Fext) acting on the system must be equal to zero (Fext = 0). This ensures that there is no change in the system's total linear momentum.

Test: Linear momentum of a system of particles (July 16) - Question 4
What does the equation "P = M V" represent in the context of a system of particles?
Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 4
The equation "P = M V" represents the conservation of linear momentum for a system of particles. It states that the total linear momentum of a system is equal to the product of the system's total mass (M) and the velocity of its center of mass (V).
Test: Linear momentum of a system of particles (July 16) - Question 5
What is the law of total linear momentum conservation for a system of particles?
Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 5
The law of total linear momentum conservation for a system of particles states that the total momentum of a system remains constant when no external forces act on it. This means that in the absence of external forces, the total linear momentum is conserved.
Test: Linear momentum of a system of particles (July 16) - Question 6
In the context of radioactive decay, what happens to the rate of change of momentum (dP/dt) when the net external force (Fext) is zero?
Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 6
When the net external force (Fext) is zero, the rate of change of momentum (dP/dt) remains constant. This means that there is no change in momentum over time in the absence of external forces.
Test: Linear momentum of a system of particles (July 16) - Question 7
What is one application of the conservation of linear momentum mentioned in the text?
Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 7
One application of the conservation of linear momentum mentioned in the text is rocket launches. Rockets propel upwards by expelling exhaust gases downwards, conserving linear momentum and allowing them to reach higher altitudes.
Test: Linear momentum of a system of particles (July 16) - Question 8
In a collision between two bodies where momentum is conserved, if the initial momentum is M V - m v, what is the final momentum?
Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 8
In a collision where momentum is conserved, the initial momentum is equal to the final momentum. Therefore, the final momentum is (M + m) vfinal.
Test: Linear momentum of a system of particles (July 16) - Question 9
In the context of motorboats, how do they maintain propulsion according to the principle of conservation of momentum?
Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 9
Motorboats maintain propulsion by expelling water in the opposite direction of the desired motion. This action conserves linear momentum, pushing the boat forward in response to the expelled water.
Test: Linear momentum of a system of particles (July 16) - Question 10
According to the third law of motion, why does an air-filled balloon move in the opposite direction when air rushes out of it?
Detailed Solution for Test: Linear momentum of a system of particles (July 16) - Question 10
According to the third law of motion, the air-filled balloon moves in the opposite direction when air rushes out of it to conserve linear momentum. The expelled air carries momentum, causing the balloon to move in the opposite direction as a reaction, following the law of conservation of momentum.

## Daily Test for NEET Preparation

12 docs|366 tests
Information about Test: Linear momentum of a system of particles (July 16) Page
In this test you can find the Exam questions for Test: Linear momentum of a system of particles (July 16) solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Linear momentum of a system of particles (July 16), EduRev gives you an ample number of Online tests for practice

## Daily Test for NEET Preparation

12 docs|366 tests