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Why is Bhrāmarī Prānāyāma also known as the humming bee breath?
Bhrāmarī Prānāyāma, or "humming bee breath," derives its name from the humming sound produced during exhalation, resembling a female bee’s buzz. This sound generates calming vibrations that relax the nervous system, reduce anxiety, and enhance mental clarity. The practice fosters deep relaxation, baRead more
Bhrāmarī Prānāyāma, or “humming bee breath,” derives its name from the humming sound produced during exhalation, resembling a female bee’s buzz. This sound generates calming vibrations that relax the nervous system, reduce anxiety, and enhance mental clarity. The practice fosters deep relaxation, balances blood pressure, and improves concentration. Its simplicity makes it an accessible yet powerful technique for emotional stability and mental focus.
See lessExplain the difference between Dhārana and Dhyāna in Ashtāṅga Yoga.
Dhārana and Dhyāna are interconnected but distinct stages of Ashtāṅga Yoga. Dhārana emphasizes focused attention on a single object, requiring effort to maintain steadiness. It prepares the mind for deeper practices. Dhyāna, the next stage, involves effortless and continuous meditation, where concenRead more
Dhārana and Dhyāna are interconnected but distinct stages of Ashtāṅga Yoga. Dhārana emphasizes focused attention on a single object, requiring effort to maintain steadiness. It prepares the mind for deeper practices. Dhyāna, the next stage, involves effortless and continuous meditation, where concentration flows naturally without distraction. This transformative state fosters inner tranquility and heightened awareness, paving the way for achieving Samādhi, the ultimate goal of Yoga.
See lessWhat is the purpose of chanting during Nādanusandhāna?
Chanting in Nādanusandhāna serves to create sound vibrations that resonate deeply within the body. This process calms the mind, reduces distractions, and enhances focus. The vibrations, especially from chants like "AUM," align physical, mental, and spiritual energies, fostering inner awareness and tRead more
Chanting in Nādanusandhāna serves to create sound vibrations that resonate deeply within the body. This process calms the mind, reduces distractions, and enhances focus. The vibrations, especially from chants like “AUM,” align physical, mental, and spiritual energies, fostering inner awareness and tranquility. By expanding consciousness and improving meditative depth, chanting supports spiritual growth and holistic well-being, making it a vital aspect of advanced Yogic practices.
See lessExpress angular momentum in terms of the rectangular components of linear momentum and position vectors.
Angular momentum is a very important concept in physics that describes the rotational motion of an object about a specific axis. It can be expressed in terms of the rectangular components of linear momentum and position vectors in three-dimensional space. To help understand this relationship, take aRead more
Angular momentum is a very important concept in physics that describes the rotational motion of an object about a specific axis. It can be expressed in terms of the rectangular components of linear momentum and position vectors in three-dimensional space.
To help understand this relationship, take an object with the characteristics of position in space, which is represented with a position vector, and the motion represented with a linear momentum vector. The position vector gives the location of the object with respect to a reference point. A linear momentum vector gives the amount of motion that the object has, based on its mass and velocity.
Angular momentum is computed as the cross product of the position vector and the linear momentum vector. The result is an angular momentum vector that reflects the magnitude and direction of the rotational motion of the object. The components of this angular momentum vector can be obtained from the corresponding components of the position and momentum vectors.
In essence, the angular momentum vector brings to light how motion depends on position relative to an axis of rotation. Such a representation is useful for many analyses that are required in rotating systems in various domains, including mechanics, astrophysics, and engineering, which necessarily must consider the rotational behavior of objects.
Check this for more : – https://www.tiwariacademy.com/ncert-solutions/class-11/physics/chapter-6/
See lessWhat is the difference between virtual image formed by a convex lens and that formed by a concave lens?
A convex lens forms a virtual image only when the object is within its focal length. The image is upright, magnified, and on the same side as the object. A concave lens always forms a virtual image, which is upright, diminished, and on the same side. For more visit here: https://www.tiwariacademy.coRead more
A convex lens forms a virtual image only when the object is within its focal length. The image is upright, magnified, and on the same side as the object. A concave lens always forms a virtual image, which is upright, diminished, and on the same side.
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See lesshttps://www.tiwariacademy.com/ncert-solutions/class-12/physics/chapter-9/