Olympiad Wallah

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India28 220 Educación13 435...

📈 Análisis del canal de Telegram Olympiad Wallah

El canal Olympiad Wallah (@olympiad_wallah) en el segmento lingüístico de Inglés es un actor destacado. Actualmente la comunidad reúne a 15 091 suscriptores, ocupando la posición 13 435 en la categoría Educación y el puesto 28 220 en la región India.

📊 Métricas de audiencia y dinámica

Desde su creación el невідомо, el proyecto ha mostrado un crecimiento acelerado, reuniendo a 15 091 suscriptores.

Según los últimos datos del 23 junio, 2026, el canal mantiene una actividad estable. En los últimos 30 días la variación de miembros fue de 495, y en las últimas 24 horas de 15, conservando un alto alcance.

Estado de verificación: No verificado
Tasa de interacción (ER): El promedio de interacción de la audiencia es 15.64%. Durante las primeras 24 horas tras publicar, el contenido suele obtener 3.89% de reacciones respecto al total de suscriptores.
Alcance de las publicaciones: Cada publicación recibe en promedio 2 360 visualizaciones. En el primer día suele acumular 587 visualizaciones.
Reacciones e interacción: La audiencia responde de forma activa: el promedio de reacciones por publicación es 8.
Intereses temáticos: El contenido se centra en temas clave como champ, revision, aspirant, aaj, olympiadwallah.

📝 Descripción y política de contenido

El autor describe el recurso como un espacio para expresar opiniones subjetivas:
“🎯 Olympiad & JEE Prep Channel Your go-to space for: 🔹 NSEC | NSEB | NSEP | NSEA | NSEJS | IOQM 🔹 Advanced Series: Physics, Chem, Bio, Maths 🔹 JEE Excellence & Test Series Stay updated. Stay prepared. Let’s crack it! 💥”

Gracias a la alta frecuencia de actualizaciones (últimos datos recibidos el 24 junio, 2026), el canal mantiene la vigencia y un amplio alcance. La analítica demuestra que la audiencia interactúa activamente con el contenido, lo que lo convierte en un punto de referencia dentro de la categoría Educación.

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Suscriptores

+1524 horas

+17 días

+49530 días

2 360

Visitas de la publicación

~ 58724 horas

~ 65548 horas

15.64%

Tasa de compromiso

~ 2

Mensajes por día

Ads index

beta

Archivo de publicaciones

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⚡ KINETIC ENERGY — FORMULA SHEET 🔹 Kinetic Energy (KE) KE = ½mv² where, m = mass v = velocity 🔹 Work-Energy Theorem W = ΔKE W = KE₂ − KE₁ 🔹 Translational Kinetic Energy KE = ½mv² 🔹 Rotational Kinetic Energy KE = ½Iω² where, I = moment of inertia ω = angular velocity 🔹 Total Kinetic Energy (Rolling Motion) KE = ½mv² + ½Iω² 🔹 Relation Between Momentum and Kinetic Energy KE = p²/2m where, p = momentum 🔹 Velocity in Terms of Kinetic Energy v = √(2KE/m) 🔹 Momentum in Terms of Kinetic Energy p = √(2mKE) 🔹 Change in Kinetic Energy ΔKE = ½m(v₂² − v₁²) 🔹 Average Power P = ΔKE/t

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Hello Champions 🏆🔥 Arithmetic Functions Notes are here 📊✨ Time to connect concepts like a true Olympiad champ 🚀

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What Price Would You Prefer For the New Batch ?

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Good Morning Champions! ☀️ Welcome back! Telegram is finally active again. 🎉 Thank you for being with us during this time and for all the support you've shown. It really means a lot. We're back, and so are the updates, learning, and daily motivation. Let's keep moving forward together! 🚀

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⚡ NEWTON'S LAWS OF MOTION — FORMULA SHEET 🔹 Newton's First Law ΣF = 0 Body remains at rest or in uniform motion unless acted upon by an external force. 🔹 Newton's Second Law F = ma where, F = Force m = Mass a = Acceleration 🔹 General Form F = dp/dt where, p = Momentum 🔹 Momentum p = mv 🔹 Impulse J = FΔt 🔹 Impulse-Momentum Theorem J = Δp = p₂ − p₁ 🔹 Weight of a Body W = mg 🔹 Normal Reaction Horizontal Surface: N = mg 🔹 Lift Moving Upward N = m(g + a) 🔹 Lift Moving Downward N = m(g − a) 🔹 Apparent Weightlessness N = 0 when, a = g 🔹 Tension in a Light String For a body of mass m: T = m(g ± a) (Depending on direction of acceleration) 🔹 Pseudo Force Fₚ = ma₀ where, a₀ = acceleration of non-inertial frame 🔹 Friction Maximum Static Friction: fₛ(max) = μₛN Kinetic Friction: fₖ = μₖN

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🧭 VECTORS — FORMULA SHEET 🔹 Magnitude of a Vector |A| = √(Aₓ² + Aᵧ²) 🔹 Unit Vector Â = A/|A| 🔹 Resolution of a Vector Aₓ = A cosθ Aᵧ = A sinθ 🔹 Resultant of Two Vectors R = √(A² + B² + 2ABcosθ) 🔹 Direction of Resultant tanα = (Bsinθ)/(A + Bcosθ) 🔹 Dot Product A·B = ABcosθ A·B = AₓBₓ + AᵧBᵧ + A𝓏B𝓏 🔹 Cross Product A × B = ABsinθ 🔹 Unit Vector Relations i·i = 1 j·j = 1 k·k = 1 i·j = j·k = k·i = 0 🔹 Cross Product Relations i × j = k j × k = i k × i = j j × i = -k k × j = -i i × k = -j 🔹 Area of Parallelogram Area = |A × B| 🔹 Area of Triangle Area = ½|A × B| 🔹 Projection of A on B Projection = (A·B)/|B|

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🚀 KINEMATICS — FORMULA SHEET 🔹 Speed Speed = Distance / Time v = s/t 🔹 Velocity Velocity = Displacement / Time v = Δx/Δt 🔹 Acceleration a = (v − u)/t where, u = initial velocity v = final velocity 🔹 First Equation of Motion v = u + at 🔹 Second Equation of Motion s = ut + ½at² 🔹 Third Equation of Motion v² = u² + 2as 🔹 Fourth Equation of Motion s = [(u + v)/2]t 🔹 Average Velocity Average Velocity = Total Displacement / Total Time For Uniform Acceleration: v_avg = (u + v)/2 🔹 Relative Velocity Velocity of A with respect to B: V_AB = V_A − V_B 🔹 Projectile Motion Horizontal Range: R = (u² sin2θ)/g Maximum Height: H = (u² sin²θ)/(2g) Time of Flight: T = (2u sinθ)/g 🔹 Free Fall v = gt s = ½gt² v² = 2gs 🔹 Graph Relations Slope of Position-Time Graph = Velocity Slope of Velocity-Time Graph = Acceleration Area under Velocity-Time Graph = Displacement 🎯 MUST REMEMBER v = u + at s = ut + ½at² v² = u² + 2as R = (u² sin2θ)/g H = (u² sin²θ)/(2g) T = (2u sinθ)/g

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🌊 WAVES — FORMULA SHEET 🔹 Wave Speed (v) v = fλ where, v = wave speed f = frequency λ = wavelength 🔹 Frequency (f) f = 1/T where, T = time period 🔹 Time Period (T) T = 1/f 🔹 Angular Frequency (ω) ω = 2πf ω = 2π/T 🔹 Wave Number (k) k = 2π/λ 🔹 General Wave Equation y = A sin(kx − ωt) where, A = amplitude k = wave number ω = angular frequency 🔹 Speed of Transverse Wave on a String v = √(T/μ) where, T = tension in string μ = mass per unit length 🔹 Intensity of a Wave I ∝ A² Intensity is directly proportional to the square of amplitude. 🔹 Phase Difference ϕ = 2π(Δx/λ) 🔹 Path Difference Δx = nλ Constructive Interference Δx = (2n+1)λ/2 Destructive Interference 🔹 Beat Frequency fᵦ = |f₁ − f₂| 🔹 Doppler Effect (Source Moving) f' = f[v/(v ∓ vₛ)] where, f' = apparent frequency f = actual frequency v = speed of sound vₛ = speed of source

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📌 Check Pinned Comment 📌 Join here: https://whatsapp.com/channel/0029Vb7dl6c2Jl84jeVrvp1i Stay Connected.

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Hello Champions! Telegram is temporarily unavailable due to exam-related restriction and will be back after 22 June. Don't Panic Till then, all updates, notes and announcements will be shared on our WhatsApp channel. Join here: https://whatsapp.com/channel/0029Vb7dl6c2Jl84jeVrvp1i Stay connected.

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Science most important questions ❓ 🥳 you should learn ! 1. How does a carbon atom attain a noble-gas configuration? A carbon atom attains a noble-gas configuration by forming four covalent bonds with other atoms, allowing it to share its four valence electrons. By sharing electrons, carbon effectively achieves the stable octet configuration of neon (eight electrons in its outer shell). 2. Define catenation. Catenation is the ability of an element to form long chains or rings by bonding to atoms of the same element through covalent bonds. Carbon shows strong catenation, which enables the formation of complex organic molecules. 3. Write the number of covalent bonds present in propane. Propane (C3H8) contains 10 covalent single bonds: 2 C–C bonds and 8 C–H bonds, for a total of 10. 4. Define the term oxidising agent. An oxidising agent (oxidant) is a substance that gains electrons in a chemical reaction and, in doing so, causes another substance to be oxidised. Oxidising agents often contain an element in a relatively high oxidation state. 5. Write the formula for the first member of the ketone family. The simplest ketone is propanone (commonly called acetone), with formula C3H6O and structural formula CH3COCH3.

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5. Which of the following quantities is always negative?

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4. Gravitational potential at an infinite distance from a planet is:

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3. If the mass of Earth remains constant and its radius becomes twice, the value of g at the surface will be:

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1. According to the Universal Law of Gravitation, if the distance between two masses is doubled, the gravitational force becomes:

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2. The SI unit of gravitational field intensity (g) is:

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Gravitation - Formula Sheet 🔹 Universal Law of Gravitation: F = G(m₁m₂)/r² 🔹 Gravitational Field Intensity (g): g = GM/r² 🔹 Gravitational Potential (V): V = -GM/r 🔹 Gravitational Potential Energy (U): U = -GMm/r 🔹 Escape Velocity (vₑ): vₑ = √(2GM/R) 🔹 Orbital Velocity (vₒ): vₒ = √(GM/r) 🔹 Satellite Time Period (T): T = 2π√(r³/GM) 🔹 Relation Between Escape & Orbital Velocity: vₑ = √2 × vₒ

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Hello bachhon, Get access to the test series and test pass For NSEJS 2026 & IOQM 2026 students here is the coupon code: Use the coupon code: NSEJSTESTSERIES50 & IOQMTESTSERIES50 Apply now and boost your preparation!

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Hello bachhon, Get access to the test series and test pass For NSEJS 2026 & IOQM 2026 students here is the coupon code: Use the coupon code: NSEJSTESTSERIES50 & IOQMTESTSERIES50 Apply now and boost your preparation!