Aasaan Bhasha Mein (English) copertina

Aasaan Bhasha Mein (English)

Aasaan Bhasha Mein (English)

Di: Ashwin G
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A proposito di questo titolo

 Aasaan Bhasha Mein is a podcast made for anyone who’s ever thought, “Why is this so complicated?” Here, we take big news stories, science topics, and trending ideas and explain them in simple, everyday language that actually makes sense. No heavy jargon. No confusion. Just clear, easy-to-follow conversations that help you truly understand what’s happening around you. Powered by AI and guided by curiosity, this podcast is perfect for learners, thinkers, and anyone who enjoys knowing why things work the way they do. If you like learning without feeling overwhelmed, this one’s for you. Tune in, slow down, and understand more lekin Aasaan Bhasha Mein. #AasaanBhashaMein #Podcast #Education #ScienceExplained #AIEnabled #LearningMadeEasy #NewsSimplifiedAshwin G Politica e governo Scienza
Episodi
  • Physics of soft matter in your routine

    Physics of soft matter in your routine
    Jan 19 2026
    The Physics of Soft Matter in Everyday Life Based on the article by Indresh Yadav, here is a detailed breakdown of the science behind common household products like toothpaste and shampoo. Core Definition and Properties Soft Matter Definition: Materials that bridge the gap between solids and liquids, behaving like solids at rest but flowing like liquids when force is applied. Defining Feature: Sensitivity to both force and time. The same material responds differently depending on how hard and how quickly it is pushed. Internal Structure: Unlike hard solids (locked by strong bonds) or simple liquids (small, free-moving molecules), soft matter consists of larger building blocks like droplets, clusters, or macromolecules suspended in fluid. Fragility and Adaptability: The internal forces are weak and easily disrupted, making the structure fragile yet highly adaptable and reversible. Mechanics of Common Products Shampoo (Worm-like Micelles): Contains long, flexible, "worm-like" molecules that are tangled at rest, creating thickness. Under Stress: Shaking or pouring aligns these molecules, allowing them to slide past each other (reducing flow resistance). Molecular Dynamics: The internal network continually breaks and reforms; once motion stops, molecules re-tangle to restore thickness. Toothpaste: Maintains its shape against gravity on a toothbrush but flows easily when squeezed from the tube. Its microscopic structures rearrange under pressure and reassemble once the force is removed. The Field of Rheology Definition: The branch of physics that examines how materials deform and flow under applied stress. Historical Context: Rooted in the Greek philosophy of "panta rhei" (everything flows), suggesting that flow is an inherent feature of all matter given the right conditions. Scientific Insight: Challenges the rigid school-level division of matter into just "solids" and "liquids," showing that these states are often dependent on the timescale of observation. The Pitch Drop Experiment Context: Started in 1927 by Professor Thomas Parnell at the University of Queensland to demonstrate the viscosity of pitch (bitumen). The Goal: To prove that pitch, which appears solid enough to be shattered with a hammer, is actually a liquid. Observations: Pitch has a viscosity approximately 230 billion times that of water. In nearly 100 years, only nine drops have fallen (the ninth was in April 2014). The tenth drop is not expected until approximately 2030. Significance: It serves as the ultimate example of how "solidity" is a matter of perception and time. Conclusion Engineering: Bathroom products are carefully engineered to balance structure and softness. Key Takeaway: The distinction between solid and liquid is not absolute; it is a result of how a material’s internal structure responds to force over specific durations.
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    2 min
  • Do planet positions matter?

    Do planet positions matter?
    Jan 12 2026
    Hi
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    2 min
  • What is 5D Biomedical Printing?

    What is 5D Biomedical Printing?
    Jan 9 2026
    hi
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    2 min
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