Physics Formulas for NEET 2022 PDF Summary
If you are looking for the Physics Formulas for NEET 2022 PDF download link but you didn’t find it anywhere so don’t worry you are on the right page. In this post, we have provided all Physics formulas to help those candidates who are preparing for the NEET Exam. These formulas help the aspirants to score good marks in NEET Exam. With the help of these formulas, you can revise physics subjects easily and fast. Physics formulas help the aspirants for solving numerical questions. Below you can download the NEET Physics All Formulas PDF by using the download link.
तैयारी के अंतिम दिनों में अवधारणाओं को संशोधित करना बहुत कठिन होता है। इस प्रकार यह फिजिक्स फॉर्मूला शीट आपको कुछ ही समय में फिजिक्स को रिवाइज करने में मदद कर सकती है। यह पीडीएफ केवल एनसीईआरटी (कक्षा 11वीं और 12वीं) के महत्वपूर्ण सूत्रों पर केंद्रित है। यह आपको केवल प्रासंगिक अवधारणा फ़ार्मुलों को सीखने और अप्रासंगिक विषयों को त्यागने के लिए प्रेरित करेगा।
Physics Formulas for NEET 2022 PDF

Planck constant h = 6.63 × 10^{−34} J.s = 4.136 × 10^{15} eV.s

Gravitation constant G = 6.67×10^{−11} m^{3} kg^{−1} s^{−2}

Boltzmann constant k = 1.38 × 10^{−23} J/K

Molar gas constant R = 8.314 J/(mol K)

Avogadro’s number NA = 6.023 × 10^{23} mol^{−1}

Charge of electron e = 1.602 × 10^{−19} C

Permittivity of vacuum 0 = 8.85 × 10^{−12} F/m

Coulomb constant 1/4πε_{0} = 8.9875517923(14) × 10^{9} N m^{2}/C^{2}

Faraday constant F = 96485 C/mol

Mass of electron m_{e} = 9.1 × 10^{−31} kg

Mass of proton m_{p} = 1.6726 × 10^{−27} kg

Mass of neutron m_{n} = 1.6749 × 10^{−27} kg

StefanBoltzmann constant σ = 5.67 × 10^{−8} W/(m^{2} K^{4})

Rydberg constant R_{∞} = 1.097 × 10^{7} m^{−1}

Bohr magneton µ_{B} = 9.27 × 10^{−24} J/T

Bohr radius a_{0} = 0.529 × 10^{−10} m

Standard atmosphere atm = 1.01325 × 10^{5} Pa

Wien displacement constant b = 2.9 × 10^{−3} m K .

Wave = ∆x ∆t wave = average velocity ∆x = displacement ∆t = elapsed time.

V_{avg} = (vi + vf*)^{2}
V_{avg} = The average velocity
vi = initial velocity
vf = final velocity that is another definition of the average velocity which works where letter a is constant.

a = ∆v ∆t,
A = acceleration
∆v = change in velocity
∆t = elapsed time.

∆x = vi∆t + 1/2 a(∆t)^{2}
∆x = the displacement
vi = the initial velocity
∆t = the elapsed time
a = the acceleration
Use this formula when you don’t have vf.

∆x = vf∆t − 1/2 a(∆t)^{2}
∆x = displacement
vf = is the final velocity
∆t = elapsed time
a = acceleration
Use this formula when you don’t have vi.

F = ma
F = force
m = mass
Then a = acceleration Newton’s Second Law.
F is the net force on the mass m.

W = mg
W = weight
m = mass
g = acceleration which is due to gravity.
Then we see the weight of an object with a mass m. This is said to be really just Newton’s Second Law.

f = µN f = friction force
µ = coefficient of friction
N = normal force
Here µ can be either the kinetic coefficient of friction µk or the static coefficient of friction.

p = mv

W = F d cos θ or W = F!d
W = work t
F = force
d = distance
θ = angle between F and the direction of motion

KE = 1/2 mv^{2} K
KE = kinetic energy
m = mass
v = velocity

PE = mgh
PE = potential energy
m = mass
g = acceleration due to gravity
h = height

W = ∆(KE)
W = work done
KE = kinetic energy.
The “workenergy” which we have learnt is the theorem that is the work done by the net force on an object equals the change in kinetic energy of the object.
NEET Physics All Formulas PDF
We can write it as E = KE + PE
E = total energy
KE = kinetic energy
PE = potential energy

P = W ∆t P = power
W = work
∆t = elapsed time
Here you can download the Physics Formulas for NEET 2022 PDF by clicking on the link below.