Units & Dimensions | NEET 2025 | NEET 2026 | Prateek Jain

Unacademy NEET Toppers127 minutes read

The completion of a math and vectors class discusses the importance of a physics chapter with four key questions annually, focusing on topics like units, errors, and preparing for exams like NEET and AIIMS. The importance of understanding physical quantities, dimensions, and unit conversions for effective study in physics is emphasized, with tips on finding dimension formulas and ensuring formula accuracy through experimentation.

Insights

  • Physics exams like NEET, AIIMS, and JE Mains focus on units, errors, and exam preparation, with sessions lasting 2.5 hours.
  • Joining Unacademy for study sessions is promoted to achieve high marks in Physics exams like NEET.
  • Understanding physical quantities, measurements, and dimension formulas is crucial for effective physics study and problem-solving.
  • The principle of homogeneity allows for the multiplication and division of quantities with different units, emphasizing the importance of considering dimensions in physics.

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Recent questions

  • What is the importance of understanding physical quantities in Physics?

    Understanding physical quantities in Physics is crucial as they form the basis of all measurements and calculations in the field. By grasping the concept of physical quantities, individuals can effectively communicate and solve problems related to mass, length, time, and other measurable aspects of the physical world. Knowing the fundamental set of seven physical quantities helps avoid confusion and ensures global communication in scientific contexts. Additionally, comprehending the distinction between measurable quantities like mass and length versus immeasurable aspects such as human emotions is essential for accurate scientific analysis and communication.

  • How can one derive the dimension formula of a physical quantity?

    To derive the dimension formula of a physical quantity, one must first understand its formula and SI unit. By starting with the SI unit and then deriving the dimension formula, individuals can accurately represent the physical quantity in terms of its fundamental dimensions like length, mass, and time. If the formula is unknown, it is crucial to grasp the underlying concept before proceeding with determining the dimension formula. Remember, focusing on finding the dimension formula rather than memorizing formulas is key to effectively solving physics problems and understanding the fundamental aspects of physical quantities.

  • Why is the principle of homogeneity of dimensions important in physics?

    The principle of homogeneity of dimensions is vital in physics as it allows for the addition, subtraction, multiplication, and division of quantities with the same dimensions. This principle ensures that mathematical operations involving physical quantities are accurate and consistent, preventing errors in calculations. By adhering to the principle of homogeneity, individuals can confidently manipulate quantities with different units while maintaining the integrity of the underlying physical principles. Understanding and applying this principle is essential for solving complex physics problems and ensuring the accuracy of calculations.

  • What are some common examples of physical quantities in Physics?

    Common examples of physical quantities in Physics include mass, length, time, velocity, acceleration, force, energy, pressure, and temperature. These quantities play a fundamental role in describing and measuring various aspects of the physical world, allowing for precise calculations and scientific analysis. By understanding the definitions and units of these physical quantities, individuals can effectively communicate scientific information, solve physics problems, and make accurate measurements in experimental settings.

  • How does the understanding of dimension formulas contribute to success in Physics exams?

    Understanding dimension formulas is crucial for success in Physics exams as it allows individuals to accurately represent physical quantities in terms of their fundamental dimensions like length, mass, and time. By grasping the concept of dimension formulas, students can solve complex physics problems, perform unit conversions, and ensure the accuracy of calculations. Mastery of dimension formulas also aids in the clear communication of scientific information and concepts, which is essential for excelling in exams like NEET, AIIMS, and JE Mains. Overall, a strong understanding of dimension formulas is a key component of effective physics study and problem-solving strategies.

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Summary

00:00

Physics Study: Units, Dimensions, and Success

  • The text discusses the completion of a math and vectors class, emphasizing the importance of a physics chapter that is relatively easy but crucial, with around four questions annually.
  • The session is expected to last around 2.5 hours, focusing on topics like units, errors, and preparation for exams like NEET, AIIMS, and JE Mains.
  • Revision is encouraged for those who haven't studied the chapter, with a reminder to immediately revise for those who have.
  • The text promotes joining Unacademy for exclusive study sessions, aiming for high marks in Physics exams like NEET.
  • The importance of Units and Dimensions in Physics is highlighted, with the assurance that preparation in this area can lead to success in exams.
  • The text emphasizes the need for a fundamental set of seven physical quantities to avoid confusion and ensure global communication.
  • It distinguishes between physical quantities that can be measured, like mass, length, and time, and those that cannot, such as human emotions.
  • The concept of physical quantities is further explained through examples like the mass and length of a pen, highlighting the distinction between measurable and immeasurable aspects.
  • The text clarifies that light itself is not a physical quantity, but aspects like wavelength, frequency, and intensity of light can be measured.
  • The importance of understanding physical quantities and their measurement units, including SI and CGS units, is underscored for effective physics study and problem-solving.

14:01

"Physics Class 11: Key Quantities Explained"

  • Gram seconds remain constant in both seconds
  • Mass is denoted by 'm' and length by 'l'
  • Dimension formula written from 't'
  • Three quantities crucial for mechanics in Physics Class 11
  • Temperature introduced in thermal physics as a new quantity
  • Temperature is denoted by 't' and SI unit is Kelvin
  • Current is fundamental, defined by charge
  • Charge defined by current, making current fundamental
  • Coulomb is unit of charge, Ampere is SI unit of current
  • Mole is amount of substance, SI unit is mole

28:05

Deriving Dimension Formulas for Physical Quantities

  • To find the dimension formula of a physical quantity, start by knowing its formula and SI unit.
  • Write the SI unit first, then derive the dimension formula.
  • If you don't know the formula, understand the concept first before proceeding.
  • Remember, the dimension of a physical quantity is crucial.
  • Focus on finding the dimension formula rather than memorizing formulas.
  • Completing the syllabus for 2025 and 2026 will take around one and a half years.
  • The most challenging part of physics is understanding formulas.
  • The dimension formula for velocity is m0 a1 t-1 or l-1.
  • The dimension formula for acceleration is a t-2.
  • Remember, numbers and constants in physics are dimensionless.

45:22

Understanding Dimensions and Units in Physics

  • The dimension of a cube is discussed, with references to time and watching too much.
  • Half an hour is spent on a page, emphasizing the importance of taking breaks.
  • The formula for kinetic energy is explained as half AV square, with details on mass and velocity.
  • The unit of energy, joule, is highlighted as common across different energy types.
  • The importance of understanding dimension formulas and unit conversions is stressed.
  • Pressure is defined as force per unit area, with the dimension formula derived as Newton per meter square.
  • The concept of plane angle is explained, with an emphasis on its unit being radian.
  • Angular velocity and acceleration formulas are discussed, with details on their units and dimensions.
  • Angular momentum and impulse are linked, sharing the same dimension formula.
  • The consistency of dimension formulas across different physical quantities is highlighted, emphasizing the importance of clear concepts in physics.

01:01:05

Dimensions of Physical Constants in Physics

  • The Plank's constant is a significant constant in physics and chemistry.
  • The formula for Plank's constant is Momentum = h/λ, where h is the constant and λ is the wavelength.
  • The dimensions of Plank's constant are derived by considering momentum, which is mass multiplied by velocity.
  • The dimension formula for Plank's constant includes kilogram, meter, and second.
  • The dimensions of angular momentum and angular impulse are similar to Plank's constant.
  • Constants like Planck's constant can have dimensions, unlike unitless constants like π and e.
  • The universal constant of gravitation, denoted as G, has dimensions involving mass, length, and time.
  • The formula for the universal constant of gravitation is based on Newton's Law of Gravitation.
  • The dimension formula for G includes kilogram, meter, and second, with dimensions of length, mass, and time.
  • Understanding the dimensions of physical quantities like stress, strain, and Young's modulus is crucial for solving problems in physics.

01:19:00

"Physics Units and Formulas Simplified"

  • Force is measured in Newtons, which is a unit without dimensions.
  • The unit of radius is meters.
  • Velocity is measured in meters per second.
  • The dimension of time is represented by Newton seconds per meter squared.
  • The formula f = 6PaB is crucial in fluid mechanics.
  • Matching matrices in exams can be easier than single correct questions.
  • The unit of gravitational potential energy is kilogram meter squared per second squared.
  • Gravitational intensity is measured in meters per second squared.
  • Stress has no dimensions, while pressure is measured in square meters per Newton.
  • The principle of homogeneity of dimensions allows for addition, subtraction, and comparison of quantities with the same dimensions.

01:36:09

"Multiplication and Division of Quantities with Units"

  • When multiplying quantities with the same units, it is possible to multiply them.
  • For quantities with different units, multiplication and division are both feasible.
  • Division and multiplication can be done regardless of the units involved.
  • It is not mandatory for quantities like current, voltage, and resistance to have the same units.
  • Addition and subtraction can only be done for quantities with the same units.
  • The principle of homogeneity allows for the multiplication of quantities with different units.
  • The dimensions of quantities must be considered when determining equality.
  • The dimensions of quantities can be different even if they are equal.
  • The dimensions of quantities can vary even if they are equal.
  • The principle of homogeneity applies to multiplication and division, regardless of the units involved.

01:52:59

Equations and Units Determine Formula Dimensions

  • Dimension of A is found by solving equations and deriving the equation for A.
  • Dimension of B is determined by solving equations and finding the equation for B.
  • To find the dimension of Ba, divide the equation for Ba by equation one.
  • Dividing equation two by equation one helps in determining the dimension of B.
  • The unit of force is Newton, which means kilogram meter per second squared.
  • The time period of a pendulum depends on length, mass, and acceleration due to gravity.
  • The formula for the time period of a pendulum is derived by finding the values of A, B, and C.
  • To determine the values of A, B, and C, equations involving the variables are needed.
  • The principle of homogeneity is used to check if a formula's dimensions are correct.
  • Units and dimensions being correct do not guarantee the formula's accuracy, experimentation or derivation is needed to confirm correctness.

02:24:21

Unit Dimensions, Gravity, Conversion, and NEET Applications

  • The value units and dimensions of ABC are determined by the proportion constant Ours Is that dimensionless or in question, indicating no unit.
  • The time period Unit Length Power A M Power B and G Power C will be equal to k, ensuring unitless status.
  • The dimension of gravity is meter per second square, denoted as LT.
  • The value of C is determined to be half through comparisons and calculations.
  • The power of L is zero, A is the power of A C, leading to the value of C being minus half.
  • The time period is found to be independent of mass, as the power of mass reaches zero.
  • Conversion of units from one system to another, like SI to CGS, is explained, with examples of force and energy units.
  • Newton is defined as kilogram per meter square per second square, while dyne is gram centimeter per second square.
  • The proof of conversion from Newton to dyne is demonstrated, showing the equivalence of 10^5.
  • The last application discussed is Dimension Analysis, crucial for NEET exams, allowing for option elimination and problem-solving in kinematics questions.

02:42:01

"NEET Exam Prep: Unit and Dimension Essentials"

  • Unit and Dimension is a crucial chapter for NEET exam preparation.
  • Questions from Kinetics, Newton's Motion, Electrostatics, Magnetism, and Rotation are important.
  • Understanding units and dimensions is essential for solving physics problems accurately.
  • Incorrect dimensions in formulas lead to incorrect results.
  • Elimination method can be used to find correct answers in multiple-choice questions.
  • Velocity's unit is seconds per meter.
  • Acceleration's unit is meter per second squared.
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