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Electrical and electronics engineering

Electrical and electronics engineering

Kanalga Telegram’da o‘tish

📈 Telegram kanali Electrical and electronics engineering analitikasi

Electrical and electronics engineering (@electricalandelectronics09) Ingliz til segmentidagi kanali faol ishtirokchi. Hozirda hamjamiyat 20 061 obunachidan iborat bo'lib, Texnologiyalar & Aralashmalar toifasida 6 649-o'rinni va Hindiston mintaqasida 21 187-o'rinni egallagan.

📊 Auditoriya ko‘rsatkichlari va dinamika

невідомо sanasidan buyon loyiha tez o‘sib, 20 061 obunachiga ega bo‘ldi.

01 Iyul, 2026 dagi oxirgi ma’lumotlarga ko‘ra kanal barqaror faollikka ega. Oxirgi 30 kunda obunachilar soni 165 ga, so‘nggi 24 soatda esa -3 ga o‘zgardi va umumiy qamrov yuqori darajada qolmoqda.

  • Tasdiqlash holati: Tasdiqlanmagan
  • Jalb etish (ER): Auditoriya o‘rtacha 35.42% darajada jalb etiladi. Nashrdan keyingi dastlabki 24 soatda kontent odatda umumiy obunachilar sonining 5.43% ini tashkil etuvchi reaksiyalarni to‘playdi.
  • Post qamrovi: Har bir post o‘rtacha 0 marta ko‘riladi; birinchi sutkada odatda 1 090 ta ko‘rish yig‘iladi.
  • Reaksiyalar va o‘zaro ta’sir: Auditoriya faol: har bir postga o‘rtacha 0 ta reaksiya keladi.
  • Tematik yo‘nalishlar: Kontent current, transistor, circuit, mosfet, collector kabi asosiy mavzularga jamlangan.

📝 Tavsif va kontent siyosati

Muallif resursni shaxsiy fikrni ifoda etish maydoni sifatida ta’riflaydi:
Electrical engineering Paid promotion @Engineeringupdatess @electricalandelectronics09

Yuqori yangilanish chastotasi (oxirgi ma’lumot 02 Iyul, 2026 da olingan) sababli kanal doimo dolzarb va katta qamrovli bo‘lib qoladi. Analitika auditoriya kontent bilan faol hamkorlik qilishini, uni Texnologiyalar & Aralashmalar toifasidagi muhim ta’sir nuqtasiga aylantirishini ko‘rsatadi.

20 061
Obunachilar
-324 soatlar
+177 kunlar
+16530 kunlar
Postlar arxiv
Common Electrical Engineering Formulas: 1. Ohm's Law: V = I * R - V: Voltage (in volts) - I: Current (in amperes) - R: Resistance (in ohms) 2. Power in a DC Circuit: P = V * I - P: Power (in watts) - V: Voltage (in volts) - I: Current (in amperes) 3. Power in an AC Circuit: P = V * I * cos(θ) - P: Power (in watts) - V: Voltage (in volts) - I: Current (in amperes) - θ: Phase angle between voltage and current 4. Capacitance: C = Q / V - C: Capacitance (in farads) - Q: Electric charge (in coulombs) - V: Voltage (in volts) 5. Inductance: L = Φ / I - L: Inductance (in henries) - Φ: Magnetic flux (in webers) - I: Current (in amperes) 6. Impedance of a Resistor: Z = R - Z: Impedance (in ohms) - R: Resistance (in ohms) 7. Impedance of a Capacitor: Z = 1 / (jωC) - Z: Impedance (in ohms) - j: Imaginary unit (√-1) - ω: Angular frequency (in radians per second) - C: Capacitance (in farads) 8. Impedance of an Inductor: Z = jωL - Z: Impedance (in ohms) - j: Imaginary unit (√-1) - ω: Angular frequency (in radians per second) - L: Inductance (in henries) 9. Kirchhoff's Voltage Law (KVL): Σ(Voltage drops) = Σ(Voltage sources) - The sum of voltage drops across components in a closed loop is equal to the sum of the voltage sources in that loop. 10. Kirchhoff's Current Law (KCL): Σ(Currents entering a node) = Σ(Currents leaving a node) - The sum of currents entering a node is equal to the sum of currents leaving that node.

Electrical transmission 👍👍😍
+2
Electrical transmission 👍👍😍

Thanks to all subscribers 😍😍👍👍👍
Thanks to all subscribers 😍😍👍👍👍

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