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आपका सवाल बहुत अच्छा है! AC और DC क्यों कहा जाता है? AC (Alternating Current): इसमें करंट (Current) का दिशा समय के साथ बदलता है। इसका मतलब है कि करंट एक दिशा में बहने के बाद दूसरी दिशा में बदल जाता है। इसे "अल्टरनेटिंग करंट" कहते हैं क्योंकि करंट (Current) की दिशा बदलती है। DC (Direct Current): इसमें करंट (Current) हमेशा एक ही दिशा में बहता है। इसे "डायरेक्ट करंट" कहते हैं क्योंकि करंट की दिशा स्थिर रहती है। Voltage क्यों नहीं AC और DC के साथ जुड़ा है? Voltage (वोल्टेज) करंट को उत्पन्न करने वाली विद्युत दबाव है, और यह AC या DC दोनों में हो सकता है। लेकिन, करंट (Current) के बारे में अधिक महत्वपूर्ण होता है, इसलिए हम AC और DC शब्दों का उपयोग करते हैं, न कि AV (Alternating Voltage) और DV (Direct Voltage)। Voltage में कोई दिशा परिवर्तन नहीं होता है, जबकि Current में दिशा परिवर्तन होता है, जो AC और DC के बीच अंतर को स्पष्ट करता है। निष्कर्ष: हम AC और DC का उपयोग करते हैं क्योंकि यह करंट (Current) की दिशा को दर्शाता है, जबकि वोल्टेज (Voltage) में दिशा परिवर्तन नहीं होता।

Pahle aap ne aap ko safe Kar le hydrogen sulfide H2s is poisoning gas

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LED lights and superconductors are fundamentally different technologies with distinct applications, but they both offer efficiency advantages in their respective domains. Here’s a comparison: 1. Efficiency: LED Lights: LED (Light Emitting Diode) lights are highly energy-efficient compared to traditional incandescent or fluorescent bulbs. They convert a significant portion of electrical energy into light with minimal heat production, leading to reduced electricity consumption. Superconductors: Superconductors have zero electrical resistance below a critical temperature, which means there is no energy loss as heat during electrical conduction. This makes them ideal for applications like power transmission, MRI machines, and quantum computing. However, maintaining the extremely low temperatures required can be energy-intensive. 2. Power Savings: LED Lights: The power savings in LEDs are immediate and tangible for household or commercial lighting. For instance, a 10W LED can replace a 60W incandescent bulb, offering up to 80% energy savings. Superconductors: Power savings in superconductors occur in large-scale systems, such as in power grids, where they can eliminate energy losses in transmission lines. This is not yet practical for small-scale or household use due to the need for cooling systems. 3. Brightness and Application: LED Lights: LEDs provide bright, focused, and customizable lighting. They are used for lighting homes, streets, vehicles, and even screens. Their primary role is illumination. Superconductors: Superconductors do not emit light and are used in entirely different applications like magnetic levitation, high-speed trains, and energy storage systems. They are not directly related to lighting or illumination. 4. Practicality: LED Lights: LEDs are affordable, readily available, and easy to use in everyday life. They don’t require special conditions like cooling or maintenance. Superconductors: Superconductors require advanced cooling systems (like liquid helium or nitrogen) to maintain their zero-resistance state, making them impractical for everyday use in their current state. 5. Impact on Energy Infrastructure: LED Lights: Widespread adoption of LEDs reduces overall electricity demand for lighting, helping to cut greenhouse gas emissions and electricity bills. Superconductors: Superconductors have the potential to revolutionize the energy sector by enabling lossless power transmission and reducing the carbon footprint of energy systems. However, this is still largely experimental. Conclusion: LEDs are a practical, affordable solution for reducing energy consumption in lighting, widely used in homes and businesses. Superconductors represent a breakthrough in large-scale energy and technology systems, but their adoption is limited due to high costs and technological challenges.

@@NiketShahPlus Apart from technological challenges, we also need to check the energy consumption required to generate & maintain advance cooling system at various places. We need to consider power consumption in total. it is as good as saying that one is Offred free dinner in a very posh hotel but with entrance fee of USD 10 K. It was a good interesting & knowledgeable video useful for most. Silver has much better conductivity than Copper. I am aware of some furnaces where fuse material used is Gold because fuse wire is very small and furnace fuse has to melt exactly at the melting point of Gold. However I have never come across Gold wire conductors (could be my ignorance) but Silver used as conductor is seen at many places. Thank you sir for your excellent and detailed feedback.

Diode ki frequency rating uske type par depend karti hai: General-purpose Diodes: Up to 1 kHz Fast Recovery Diodes: Up to several MHz Schottky Diodes: Up to hundreds of MHz PIN Diodes (RF): Up to GHz range Aapko diode ki datasheet check karni hogi for specific frequency limits.

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Superconductor (Supar Conductar) ek aisa padarth ya material hai jo bilkul zero resistance par current ko conduct kar sakta hai. Jab kisi material ko bohot hi kam temperature (absolute zero ke kareeb) tak thanda kiya jata hai, toh wo apne andar se har prakaar ka resistive effect hata deta hai aur ek superconducting state me pahunch jata hai. Superconductors kaise bante hain? Material ka chayan (Selection of Material): Kuch khas materials superconductivity dikhate hain, jaise niobium, titanium, mercury, aur kuch high-temperature superconductors, jisme ceramic compounds jaise YBCO (yttrium barium copper oxide) shaamil hote hain. Temperature ko low karna: Superconductors ko achieve karne ke liye material ko ultra-low temperatures tak thanda karna padta hai, jo absolute zero (-273.15°C ya 0 Kelvin) ke kareeb hota hai. Ye temperature liquid helium ya liquid nitrogen ka use karke achieve kiya jata hai. Cooling Process: Jab material is low temperature par pahunchta hai, tab electrons bina kisi resistance ke freely move kar sakte hain, aur tab wo superconductor ban jata hai. Superconductors ke Uses Superconductors ka use powerful magnets, MRI machines, maglev trains, particle accelerators jaise high-tech equipment me kiya jata hai kyunki ye current ko bina energy loss ke carry kar sakte hain.

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