Forwarded from Shapath Class 12 Science Adda247 (Co-owner)
Final Revision Before Exam with 5000 Students
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⏳ Ek class me sab clear! 🎯 LIVE aao aur last moment me topper bano! 🔥https://www.youtube.com/live/5CX2XHE0WXs?si=FcphUUt7BkBdbi7t
Forwarded from Adda247 Commerce Class 12
📢 7000+ Students LIVE! 🚀 Physical Education का धमाकेदार सेशन चल रहा है! 💥
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Jo अभी पढ़ाया, वही थोड़ी देर में एग्जाम में पूछा जाएगा! 🎯🔥https://www.youtube.com/live/5CX2XHE0WXs?si=FcphUUt7BkBdbi7t
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Forwarded from Adda247 Commerce Class 12
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Ye most important topics hain, jinhe acche se revise karna hai:
1. Electrostatics & Magnetism
- Gauss Law & its Applications
- Electric Field due to Dipole (Axial & Equatorial)
- Magnetic Field due to Loop (Axis & Center)
- Force between Two Parallel Wires
2. Current & Circuits
- Kirchhoff’s Laws & Applications
- I = nEAV Formula
- Partially Filled Capacitor
- Parallel Combination of Cells
- LCR Circuit
- Power in AC Circuit
3. Optics
- Telescope & Microscope
- TIR & Critical Angle
- Refraction at Spherical Surface
- Lens Maker’s Formula
4. Modern Physics & Waves
- Binding Energy & Q-Value
- EM Spectrum
- Fringe Width
5. Electronics & AC
- Both Rectifiers (Half & Full Wave)
- Transformer & AC Generator
Darr ki koi baat nahi hai! Bas in topics ko solid revise kar lo.
Subah 4 baje milte hain full energy ke saath!
#Gajendra Sir Science Adda
1. Electrostatics & Magnetism
- Gauss Law & its Applications
- Electric Field due to Dipole (Axial & Equatorial)
- Magnetic Field due to Loop (Axis & Center)
- Force between Two Parallel Wires
2. Current & Circuits
- Kirchhoff’s Laws & Applications
- I = nEAV Formula
- Partially Filled Capacitor
- Parallel Combination of Cells
- LCR Circuit
- Power in AC Circuit
3. Optics
- Telescope & Microscope
- TIR & Critical Angle
- Refraction at Spherical Surface
- Lens Maker’s Formula
4. Modern Physics & Waves
- Binding Energy & Q-Value
- EM Spectrum
- Fringe Width
5. Electronics & AC
- Both Rectifiers (Half & Full Wave)
- Transformer & AC Generator
Darr ki koi baat nahi hai! Bas in topics ko solid revise kar lo.
Subah 4 baje milte hain full energy ke saath!
#Gajendra Sir Science Adda
Forwarded from Shapath Class 12 Science Adda247 (Co-owner)
Forwarded from Shapath Class 12 Science Adda247 (Co-owner)
📌 Ray Optics – Important Notes
🔹 1. Basic Concepts of Light
- Light travels in a straight line (Rectilinear Propagation).
- It follows the Reversibility Principle (path remains the same in both directions).
🔹 2. Reflection of Light
📖 Laws of Reflection:
✅ Angle of Incidence (i) = Angle of Reflection (r).
✅ If two mirrors are placed at θ°, the number of images formed:
➝ n = (360/θ) - 1
➝ Example: For θ = 90°, we get 3 images.
🔹 3. Refraction of Light
📖 Snell’s Law:
🔹 n₁ sin i = n₂ sin r
- Rarer → Denser ➝ Bends Towards Normal
- Denser → Rarer ➝ Bends Away from Normal
- Total Internal Reflection (TIR) occurs if i > Critical Angle (C).
🔹 4. Mirrors & Lenses – Shortcut Rules
🔹 Concave Mirror (Converging):
- Object beyond C → Image between F & C (Real, Inverted, Smaller).
- Object at F → Image at Infinity (Highly Enlarged).
- Object closer than F → Virtual, Enlarged (Used in Makeup Mirrors).
🔹 Convex Mirror (Diverging):
- Always Virtual, Upright, Smaller Image (Used in Rear-View Mirrors).
🔹 5. Lens Formula & Power of Lenses
📖 Formula:
🔹 1/f = 1/v - 1/u
🔹 Power (P) = 100/f (Diopters)
- Convex Lens (+P): Converging
- Concave Lens (-P): Diverging
🔹 6. Optical Instruments
✅ Microscope:Uses 2 Convex Lenses.
✅ Telescope: Uses a Convex Objective & Convex Eyepiece.
🔹 7. Quick Tricks & Formulas
✅ Total Internal Reflection:
🔹 sin C = 1/n
✅ Lens Combination Formula:
🔹 1/F = 1/f₁ + 1/f₂
📌 Remember:
- Convex Lens = Concave Mirror (Converging).
- Concave Lens = Convex Mirror (Diverging).
- Closer than F → Virtual Image.
- Beyond F → Real Image.
#dhakkan Army 4AM
3.40 par Milte hai
🔹 1. Basic Concepts of Light
- Light travels in a straight line (Rectilinear Propagation).
- It follows the Reversibility Principle (path remains the same in both directions).
🔹 2. Reflection of Light
📖 Laws of Reflection:
✅ Angle of Incidence (i) = Angle of Reflection (r).
✅ If two mirrors are placed at θ°, the number of images formed:
➝ n = (360/θ) - 1
➝ Example: For θ = 90°, we get 3 images.
🔹 3. Refraction of Light
📖 Snell’s Law:
🔹 n₁ sin i = n₂ sin r
- Rarer → Denser ➝ Bends Towards Normal
- Denser → Rarer ➝ Bends Away from Normal
- Total Internal Reflection (TIR) occurs if i > Critical Angle (C).
🔹 4. Mirrors & Lenses – Shortcut Rules
🔹 Concave Mirror (Converging):
- Object beyond C → Image between F & C (Real, Inverted, Smaller).
- Object at F → Image at Infinity (Highly Enlarged).
- Object closer than F → Virtual, Enlarged (Used in Makeup Mirrors).
🔹 Convex Mirror (Diverging):
- Always Virtual, Upright, Smaller Image (Used in Rear-View Mirrors).
🔹 5. Lens Formula & Power of Lenses
📖 Formula:
🔹 1/f = 1/v - 1/u
🔹 Power (P) = 100/f (Diopters)
- Convex Lens (+P): Converging
- Concave Lens (-P): Diverging
🔹 6. Optical Instruments
✅ Microscope:Uses 2 Convex Lenses.
✅ Telescope: Uses a Convex Objective & Convex Eyepiece.
🔹 7. Quick Tricks & Formulas
✅ Total Internal Reflection:
🔹 sin C = 1/n
✅ Lens Combination Formula:
🔹 1/F = 1/f₁ + 1/f₂
📌 Remember:
- Convex Lens = Concave Mirror (Converging).
- Concave Lens = Convex Mirror (Diverging).
- Closer than F → Virtual Image.
- Beyond F → Real Image.
#dhakkan Army 4AM
3.40 par Milte hai