Physics Formulas for NEET 2025
NEET Physics Formulas help students save a lot of time during revision. Here are some important formulas for NEET Physics that students need to practice regularly to get a good score in the exam.
How many times has it happened that you wanted to learn or revise a Physics formula for NEET 2024 and you had to sift through the entire textbook to find one? How many times did you wish that you could refer to any formula instantly without going through so much hassle? These challenges are some of the most common issues students face during the NEET 2025 Exam Preparation. Physics Formulas for NEET 2025 act as the beacon of guidance for all the candidates aspiring to appear for the NEET 2025 Exam. Candidates must regularly revise the physics formula for NEET to score good marks in the exam. NEET Exam 2025 is expected to be conducted in the 1st week of May 2025. With a limited time left, it is recommended that aspirants start their revision of physics important formulas for NEET 2025.
NEET Exam 2025 is one of the most popular and toughest entrance exams in India. The NEET Physics Syllabus contains chapters like Oscillations and Waves, Current Electricity, Electromagnetic Waves, Optics, and Electronic Devices. All of these chapters are important because the majority of the physics chapter wise formulas for NEET 2025 are from these sections. One of the best ways to prepare the Physics Formulas for NEET 2024 is to solve the NEET Previous Year Question Papers with Solutions and regularly attend the NEET 2025 Mock Test to increase the chances of securing good marks in the exam. Apart from these, an effective way to prepare the NEET Physics formula is to memorize it thoroughly. Learning the Physics formula for NEET 2024 will help the aspirant to ace the exam. Students can scan through this article to find out the Physics formulas for NEET 2025.
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Most Scoring Physics Formula for NEET 2025
The NEET Physics 2025 Syllabus PDF contains chapters on Physics, Chemistry, and Biology from the higher secondary CBSE syllabus. The chapters included in the physics section mainly contain numerical problems. Hence, it is important that aspiring students focus on regularly practicing NEET Physics 2025 Important Formulas. Some Physics Formulas for NEET 2025 are more than the rest. Here we have provided the Most Scoring Concepts in Physics Formula Sheet NEET 2025 for the reference of interested candidates.
Title of the Concept | Name of Chapter | Frequency | Year |
Nature of Electromagnetic Waves | Electromagnetic Waves | 4 | 2020 to 2023 |
Logic Gates | Electronic devices | 7 | 2019, 2020 (x3), 2021, 2022, 2023 |
Series LCR Circuit | Electromagnetic Induction and Alternating Currents | 4 | 2020 to 2023 |
Resistance and Resistivity | Current Electricity | 6 | 2020 (x3), 2021, 2022, 2023 |
Kirchhoff's second law | Current Electricity | 4 | 2020 (x2), 2023 (x2) |
Young's double slit experiment | Optics | 4 | 2019, 2020, 2022, 2023 |
Equations of motions of SHM | Oscillations and Waves | 4 | 2019 (x2), 2020, 2023 |
Parallel Grouping of Resistance | Current Electricity | 4 | 2019, 2020, 2021, 2023 |
Total Internal Reflection | Optics | 4 | 2019, 2020, 2022, 2023 |
De-Broglie wavelength of an electron | Dual Nature of Matter and Radiation | 4 | 2019, 2020 (x2), 2023 |
Electric potential due to continuous charge distribution | Electrostatics | 4 | 2020, 2021 (x2), 2022 |
NEET Physics Important Formulas
Candidates need to prepare all the physics formulas for NEET for the accurate application of principles and physics concepts. So, to gauge a topic better, one has to be aware of all the Physics formulas for NEET. Here are some crucial Physics formulas for NEET 2025 that one must refer to:
Boltzmann constant, k = 1.38 × 10−23 J/K
Gravitation constant, G = 6.67×10−11 m3 kg−1 s−2
Planck constant, h = 6.63 × 10−34 J.s = 4.136 × 10-15 eV.s
a = ∆v ∆t, where A = acceleration, ∆v = change in velocity and ∆t = elapsed time.
Charge of electron, e = 1.602 × 10−19 C
Avogadro’s number, NA = 6.023 × 1023 mol−1
Molar gas constant, R = 8.314 J/(mol K)
∆x = vf∆t − 1/2 a(∆t)2 where ∆x = displacement, vf = is the final velocity, ∆t = elapsed time and a = acceleration.
Wave = ∆x ∆t wave = displacement ∆t = average velocity ∆x = elapsed time.
Coulomb constant, 1/4πε0 = 8.9875517923(14) × 109 N m2/C2
Permittivity of vacuum 0 = 8.85 × 10−12 F/m
Stefan-Boltzmann constant, σ = 5.67 × 10−8 W/(m2 K4)
Mass of electron, me = 9.1 × 10−31 kg
Faraday constant, F = 96485 C/mol
p = mv
Mass of neutron, mn = 1.6749 × 10−27 kg
Mass of proton, mp = 1.6726 × 10−27 kg
Standard atmosphere, atm = 1.01325 × 105 Pa
Rydberg constant, R∞ = 1.097 × 107 m−1
Wien displacement constant, b = 2.9 × 10−3 m K
Bohr radius, a0 = 0.529 × 10−10 m
Bohr magneton, µB = 9.27 × 10−24 J/T
F = ma where m = mass, F = force, and a = acceleration Newton’s Second Law.
F is termed as the net force on the mass m.
f = µN f = friction force, where N = normal force and µ = coefficient of friction.
Here, µ can be considered either the kinetic coefficient of friction, µk, or the static coefficient of friction.
P = W ∆t P = power, where ∆t = elapsed time and W = work.
Power is the amount of work that is done per unit of time; that is, power is the rate at which work is done.
Vavg = (vi + vf*)2 where vi = initial velocity and vf = final velocity.
KE = 1/2 mv2 K, where KE = kinetic energy, m = mass, v = velocity.
∆x = vi∆t + 1/2 a(∆t) where ∆x = the displacement, ∆t = the elapsed time, vi = the initial velocity, and a = the acceleration.
W = mg, where m = mass, W = weight, and g = acceleration which is due to gravity.
Then, we weigh an object called mass, m. This is said to be Newton’s Second Law.
W = F.d or W = F d cos θ, where W = work, d = distance, F = force, and θ = angle between F and the direction of motion.
W = ∆(KE), where KE = kinetic energy and W = work done.
The ‘work-energy’ that we have learned is the theorem that the work done by the net force on an object equals the change in kinetic energy of the object.
We can write it as E = KE + PE, where E = total energy, KE = kinetic energy, and PE = potential energy.
Physics Chapter-wise Formulas for NEET PDF - Download Link |
How to Solve Numericals like a Pro using Physics Formulas for NEET 2025?
Important formulas for NEET physics are helpful for students while solving numerical problems. One must note that the weightage of numerical formulas is high in exams. Hence, one can follow these steps to solve the Physics Formulas for NEET 2025 like a pro.
Examine questions thoroughly and stay on the lookout for important keywords. Half of the job is done if you’re able to understand the questions correctly.
Jot down all the given data and recognize the problem type. This will help you eliminate a few options and also clear you from the clutter of twisted question framings.
Zero down on the ideal yet effective approach to solving the numerical. Know what type of question has been asked and solve the question with accuracy.
Once you’ve solved the question, look for the answers in the option. If you cannot find the answer in the options, they choose the solution closest to your answer. Sometimes, accuracy issues occur and hence the answer closest to your solution can be chosen.
Be confident with your approach and don’t second guess your solution after attempting the question. Move on to the next numerals and keep attempting them one by one.
Best Books to Learn Physics Formulas for NEET 2025
There are several NEET Physics 2025 reference books that candidates can refer to. However, the reference material in the books mentioned below is considered to be the best for studying NEET physics important formulas.
Concepts of Physics by H. C. Verma
NCERT (Textbook) Physics – Class 11 and 12
Objective Physics by D. C. Pandey
Fundamentals of Physics by Halliday, Resnick, and Walker
- Problems in General Physics by I. E. Irodov
How to Study Physics Formulas for NEET 2025 Correctly
Candidates can study all physics formulas for NEET the right way by following these techniques.
Practice all numerical instead of mugging up or trying to memorize the equations.
Solve different types of numerical to understand the applications of NEET Physics formulas.
Jot down all challenging formulas on a flashcard and create bite-sized content for quick reference as and when needed.
- Try to understand the logic behind how a formula is created. This will boost your formula recall significantly.
Also Read: NEET 2025 Most Important Topics to Remember
Importance of Physics Formulas for NEET 2025
The Physics section of the NEET 2025 exam comprises 45 questions. Overall, it accounts for 180 marks out of 720. Out of the 45 questions, most of them are numerical, i.e., formula based. Hence, aspirants must study all physics formulas for NEET thoroughly.
As per recent trends and previous years’ results, experts have estimated that the Physics section is where candidates make the most mistakes and lose a good chunk of marks. So, if one wishes to secure the most marks in the NEET 2025 exam, one needs to focus on truly understanding the Physics formulas for NEET 2025.
Also Read: NEET 2025 Chapter Wise and Subject Weightage, Important Topics
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FAQs
What are some best books to prepare the important formulas for NEET physics?
Some of the best books to prepare for the important formulas for NEET physics include
DC Pandey's Objective Physics
I. E. Irodov's Problems in General Physics
Objective Physics by Prof. Satya Prakash Arya (MTG Publishers)
What are some NEET physics important formulas?
Some of the NEET physics important formulas are
Boltzmann constant: \(k=1.38\times 10^{-23}J/K\)
Planck constant: \(h=6.63\times 10^{-34}J.s=4.136\times 10^{-15}eV.s\)
Avogadro's number: \(NA=6.023\times 10^{23}mol^{-1}\)
Molar gas constant: \(R=8.314J/(molK)\)
How to prepare all physics formulas for NEET?
In order to prepare all physics formulas for NEET, candidates must regularly solve the exercises that are added after each chapter. Also, it is important to solve the NEET previous year question papers to increase speed and accuracy.
Are physics formulas for NEET 2024 enough to crack exam?
No. But, most students lose marks in the physics section of the NEET exam. Hence, candidates must be well adept with the NEET 2024 physics formulas to improve their overall scores.
Is it enough to study NCERT for all physics formulas for NEET 2024?
No. Although the NCERT books are extremely important. One must study the NCERT book of Physics first. Later, one needs to refer to other relevant books to successfully attempt the all physics formulas for NEET 2024.
What do NEET Physics important formulas mean?
Physics is about expressing real-world values instead of simply memorizing them. A formula is derived after many layers of challenges and difficulties. NEET physics important formulas allow students to understand concepts’ applications on a practical level and prepare one for future job roles. The formula also justifies the legitimacy of concepts.
Describe the formula for angular momentum?
The formula for angular momentum is L=I × ⍵ where L is the Angular Momentum, ⍵ is the Angular Velocity, and I is the Moment of Inertia. It is an integral part of the physics syllabus and describes the use of various appliance around us.
Explain the formula of pressure?
The formula for pressure can be defined as P=F/A. Here, P denotes pressure, F represents mass, and A is signified as area. Many numericals are asked or derived from the formula of pressure.
Explain the formula of momentum?
The formula for momentum can be defined as P = m x v. Here, P denotes momentum, m represents mass, and v is signified as velocity. Many numericals are asked from the formula of momentum in exams.