The center of mass of a two-particle system lies closer to the particle with the greater mass. This is because the position of the center of mass (COM) is calculated as a weighted average of the positions of the two particles, with their respective masses serving as the weights. Mathematically, theRead more
The center of mass of a two-particle system lies closer to the particle with the greater mass. This is because the position of the center of mass (COM) is calculated as a weighted average of the positions of the two particles, with their respective masses serving as the weights.
Mathematically, the center of mass for a two-particle system can be expressed as:
Here:
– \( m_1 \) and \( m_2 \) are the masses of the two particles.
– \( x_1 \) and \( x_2 \) are the positions of the two particles along a straight line.
From this formula, it is clear that:
– If \( m_1 > m_2 \), the center of mass will be closer to \( x_1 \).
– If \( m_2 > m_1 \), the center of mass will be closer to \( x_2 \).
This principle holds true regardless of the spatial dimension, with similar calculations extending to three-dimensional systems using the vector positions of the particles.
This question related to Chapter 6 physics Class 11th NCERT. From the Chapter 6. System of particle and Rotational Motion. Give answer according to your understanding.
For static equilibrium, there should be no linear or rotational motion. Thus, both net force and net torque must be zero. This question related to Chapter 6 physics Class 11th NCERT. From the Chapter 6. System of Particle and Rotational Motion. Give answer according to your understanding. For more pRead more
For static equilibrium, there should be no linear or rotational motion. Thus, both net force and net torque must be zero. This question related to Chapter 6 physics Class 11th NCERT. From the Chapter 6. System of Particle and Rotational Motion. Give answer according to your understanding.
Gravitational force acts on the center of mass, which is the average position of mass in the body. This question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Give answer according to your understanding. For more please visit here: https://www.tiwariacademy.com/ncerRead more
Gravitational force acts on the center of mass, which is the average position of mass in the body. This question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Give answer according to your understanding.
The satellites and their contents are in free fall. They appear weightless. This is a question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Answer according to your understanding. For more please visit here: https://www.tiwariacademy.com/ncert-solutions/class-11/phRead more
The satellites and their contents are in free fall. They appear weightless. This is a question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Answer according to your understanding.
Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels. Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels. For more please visit here: https://www.tiwariacademy.com/ncert-solutions/clRead more
Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels. Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels.
The center of mass of a two-particle system lies closer to:
The center of mass of a two-particle system lies closer to the particle with the greater mass. This is because the position of the center of mass (COM) is calculated as a weighted average of the positions of the two particles, with their respective masses serving as the weights. Mathematically, theRead more
The center of mass of a two-particle system lies closer to the particle with the greater mass. This is because the position of the center of mass (COM) is calculated as a weighted average of the positions of the two particles, with their respective masses serving as the weights.
Mathematically, the center of mass for a two-particle system can be expressed as:
\[ x_{COM} = \frac{m_1 x_1 + m_2 x_2}{m_1 + m_2} \]
Here:
– \( m_1 \) and \( m_2 \) are the masses of the two particles.
– \( x_1 \) and \( x_2 \) are the positions of the two particles along a straight line.
From this formula, it is clear that:
– If \( m_1 > m_2 \), the center of mass will be closer to \( x_1 \).
– If \( m_2 > m_1 \), the center of mass will be closer to \( x_2 \).
This principle holds true regardless of the spatial dimension, with similar calculations extending to three-dimensional systems using the vector positions of the particles.
This question related to Chapter 6 physics Class 11th NCERT. From the Chapter 6. System of particle and Rotational Motion. Give answer according to your understanding.
For more please visit here:
See lesshttps://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-6/
Which of the following is a condition for static equilibrium of a rigid body?
For static equilibrium, there should be no linear or rotational motion. Thus, both net force and net torque must be zero. This question related to Chapter 6 physics Class 11th NCERT. From the Chapter 6. System of Particle and Rotational Motion. Give answer according to your understanding. For more pRead more
For static equilibrium, there should be no linear or rotational motion. Thus, both net force and net torque must be zero. This question related to Chapter 6 physics Class 11th NCERT. From the Chapter 6. System of Particle and Rotational Motion. Give answer according to your understanding.
For more please visit here:
See lesshttps://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-6/
Where does gravitational force act on a body?
Gravitational force acts on the center of mass, which is the average position of mass in the body. This question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Give answer according to your understanding. For more please visit here: https://www.tiwariacademy.com/ncerRead more
Gravitational force acts on the center of mass, which is the average position of mass in the body. This question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Give answer according to your understanding.
For more please visit here:
See lesshttps://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-7/
Why do objects appear weightless in artificial satellites?
The satellites and their contents are in free fall. They appear weightless. This is a question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Answer according to your understanding. For more please visit here: https://www.tiwariacademy.com/ncert-solutions/class-11/phRead more
The satellites and their contents are in free fall. They appear weightless. This is a question related to Chapter 7 physics Class 11th NCERT. From the Chapter 7. Gravitation. Answer according to your understanding.
For more please visit here:
See lesshttps://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-7/
How does gravitational force compare to electromagnetic force?
Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels. Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels. For more please visit here: https://www.tiwariacademy.com/ncert-solutions/clRead more
Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels. Electromagnetic forces are significantly stronger than gravitational forces at the atomic and molecular levels.
For more please visit here:
See lesshttps://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-7/