Sunday, May 17, 2020

Comphrensive List of Formulae and Dimensional Formulae of Physical Quantities








1. (α+в)²= α²+2αв+в²
2. (α+в)²= (α-в)²+4αв
3. (α-в)²= α²-2αв+в²
4. (α-в)²= (α+в)²-4αв
5. α² + в²= (α+в)² - 2αв.
6. α² + в²= (α-в)² + 2αв.
7. α²-в² =(α + в)(α - в)
8. 2(α² + в²) = (α+ в)² + (α - в)²
9. 4αв = (α + в)² -(α-в)²
10. αв ={(α+в)/2}²-{(α-в)/2}²
11. (α + в + ¢)² = α² + в² + ¢² + 2(αв + в¢ + ¢α)
12. (α + в)³ = α³ + 3α²в + 3αв² + в³
13. (α + в)³ = α³ + в³ + 3αв(α + в)
14. (α-в)³=α³-3α²в+3αв²-в³
15. α³ + в³ = (α + в) (α² -αв + в²)
16. α³ + в³ = (α+ в)³ -3αв(α+ в)
17. α³ -в³ = (α -в) (α² + αв + в²)
18. α³ -в³ = (α-в)³ + 3αв(α-в)

Results and Formulae from Trigonometry
ѕιη0° =0
ѕιη30° = 1/2
ѕιη45° = 1/√2
ѕιη60° = √3/2
ѕιη90° = 1

тαη0° = 0
тαη30° = 1/√3
тαη45° = 1
тαη60° = √3
тαη90° = ∞

ѕє¢0° = 1
ѕє¢30° = 2/√3
ѕє¢45° = √2
ѕє¢60° = 2
ѕє¢90° = ∞

» ѕιη²Θ+¢σѕ²Θ=1
» ѕє¢²Θ-тαη²Θ=1
» ¢σѕє¢²Θ-¢σт²Θ=1
» ѕιηΘ=1/¢σѕє¢Θ
» ¢σѕє¢Θ=1/ѕιηΘ
» ¢σѕΘ=1/ѕє¢Θ
» ѕє¢Θ=1/¢σѕΘ
» тαηΘ=1/¢σтΘ
» ¢σтΘ=1/тαηΘ
» тαηΘ=ѕιηΘ/¢σѕΘ

1. ѕιη2α = 2ѕιηα¢σѕα
2. ¢σѕ2α = ¢σѕ²α − ѕιη²α
3. ¢σѕ2α = 2¢σѕ²α − 1
4. ¢σѕ2α = 1 − ѕιη²α
5. 2ѕιη²α = 1 − ¢σѕ2α
6. 1 + ѕιη2α = (ѕιηα + ¢σѕα)²
7. 1 − ѕιη2α = (ѕιηα − ¢σѕα)²
8. тαη2α = 2тαηα / (1 − тαη²α)
9. ѕιη2α = 2тαηα / (1 + тαη²α)
10. ¢σѕ2α = (1 − тαη²α) / (1 + тαη²α)
11. 4ѕιη³α = 3ѕιηα − ѕιη3α
12. 4¢σѕ³α = 3¢σѕα + ¢σѕ3α

2ѕιηα ¢σѕв=ѕιη(α+в)+ѕιη(α-в)
2¢σѕα ѕιηв=ѕιη(α+в)-ѕιη(α-в)
2¢σѕα ¢σѕв=¢σѕ(α+в)+¢σѕ(α-в)
2ѕιηα ѕιηв=¢σѕ(α-в)-¢σѕ(α+в)

» ѕιη(α+в)=ѕιηα ¢σѕв+ ¢σѕα ѕιηв
» ѕιη(α-в)=ѕιηα ¢σѕв-¢σѕαѕιηв

» ¢σѕ(α+в)=¢σѕα ¢σѕв - ѕιηα ѕιηв.
» ¢σѕ(α-в)=¢σѕα ¢σѕв+ѕιηαѕιηв.

» тαη(α+в)= (тαηα + тαηв)/ (1−тαηαтαηв)
» тαη(α−в)= (тαηα − тαηв) / (1+ тαηαтαηв)

» ¢σт(α+в)= (¢σтα¢σтв −1) / (¢σтα + ¢σтв)
» ¢σт(α−в)= (¢σтα¢σтв + 1) / (¢σтв− ¢σтα)

α/ѕιηα = в/ѕιηв = ¢/ѕιη¢ = 2я
» α = в ¢σѕ¢ + ¢ ¢σѕв
» в = α ¢σѕ¢ + ¢ ¢σѕα
» ¢ = α ¢σѕв + в ¢σѕα
» ¢σѕα = (в² + ¢²− α²) / 2в¢
» ¢σѕв = (¢² + α²− в²) / 2¢α
» ¢σѕ¢ = (α² + в²− ¢²) / 2¢α
» Δ = αв¢/4я
» ѕιηΘ = 0 тнєη,Θ = ηΠ
» ѕιηΘ = 1 тнєη,Θ = (4η + 1)Π/2
» ѕιηΘ =−1 тнєη,Θ = (4η− 1)Π/2
» ѕιηΘ = ѕιηα тнєη,Θ = ηΠ (−1)^ηα




Tuesday, May 5, 2020

Playlist | Lectures on Electrostatics - Chapter 3: Electric Potential and Potential Energy

Lecture 1: Electrostatics - Concept of Electric Potential and Potential Energy
Lecture 2: Electrostatics - Derivation for Electric Potential and Potential Energy due to point charges
Lecture 3: Electrostatics - Derivation for Electric Potential due to electric dipole at Axial and Equatorial Position
Lecture 4: Electrostatics - Electric Potential at any general point due to electric dipole
Lecture 5: Electrostatics - Electric Field as gradient of Potential & Equipotential Surface and its Properties
Lecture 6: Electrostatics - Work done in rotating a dipole in Electric Field & its potential energy
Lecture 7: Electrostatics - Condition for Equilibrium (Stable/Unstable) for a dipole in Electric Field

Chapter 3) Numerical Solutions from Nootan ISC Physics | Electric Potential and Potential Energy

Ques 5: Chapter 3: Electric Potential and Potential Energy | Solution to numerical problem from Nootan ISC Physics
Ques 7: Chapter 3: Electric Potential and Potential Energy | Solution to numerical problem from Nootan ISC Physics
Ques 8: Chapter 3: Electric Potential and Potential Energy | Solution to numerical problem from Nootan ISC Physics
Ques 26: Chapter 3: Electric Potential and Potential Energy | Solution to numerical problem from Nootan ISC Physics
Ques 27: Chapter 3: Electric Potential and Potential Energy | Solution to numerical problem from Nootan ISC Physics
Ques 28: Chapter 3: Electric Potential and Potential Energy | Solution to numerical problem from Nootan ISC Physics