GLAET MTech Pattern 2025: Know Marking Scheme & Exam Duration

This exam is conducted for courses given below:

BPharma, BPharma (Lateral Entry...BBA, BBA(Family Business), BBA(...BCom BCA MCA, MCA(Lateral Entry)MBA, MBA(Logistics and Supply C...MTech MPharma BSc MSc BEd BTech, BTech(LE), Diploma in En...

Updated on Sep 19, 2025 13:21 IST

By Mamona Majumder, Assistant Manager

GLAET 2025 Exam Pattern: The GLA University prescribes the GLAET 2025 exam pattern and syllabus. Candidates who wish to appear for the exam must prepare for the online test as per the syllabus and pattern. Ganeshi Lal Agarwal University Entrance Test (GLAET) is an online exam based on Objective Type Questions. Each correct answer will be awarded with 4 marks. For each wrong answer, 1 mark will be deducted. The GLAET exam pattern and syllabus vary for all the courses.

By analysing the exam pattern, candidates will know about the number of sections, subjects, the number of questions, the marking scheme, etc. GLAET 2025 exam pattern gives an understanding of the GLAET question paper. Candidates should refer to the GLAET 2025 syllabus to know about the topics important for the exam. Check more details related to the exam pattern below.

Table of content

GLAET 2025 Exam Pattern for BTech
GLAET Exam Pattern 2025 – Marking Scheme
GLAET 2025 Exam Pattern for Other Courses

GLAET 2025 Exam Pattern for BTech

For BTech: The questions will be asked from Physics, Mathematics, and English. There will be twenty questions in the Physics section, forty-five questions in the Mathematics section, and twenty-five questions in the English section. There will be total of ninety questions and the duration will be two hours. GLAET 2023 will be conducted in online mode.

Subjects	Total Questions	Duration
Physics	20 questions	2:00 Hours
Mathematics	45 questions
English	25 questions
Total	90 questions

For BTech (Lateral Entry-B.Sc. PCM Eligibility): The subjects will be the same in the lateral entry question paper. The number of questions in the Physics, Mathematics, and English section will be forty-five i.e. fifteen questions each. Candidates will get one hour to solve the questions.

Subjects	Total Questions	Duration
Physics	15 questions	1:00 Hour
Mathematics	15 questions
English	15 questions
Total	45 questions

For BTech (Lateral Entry- Diploma Eligibility): The questions will be asked from the relevant branch. There will be total fourty-five questions and the duration is one hour.

Subjects	Total Questions	Duration
Relevant branch	45 questions	1:00 Hour
Total	45 questions	1:00 Hour

GLAET Exam Pattern 2025 – Marking Scheme

Each question will carry four marks. There is a provision of negative marking. For each incorrect answer, one mark will be deducted.

For BTech: The Physics section carries 80 marks, the Maths section carries 180 marks and the English section carries 100 marks. The total mark of the question paper is 360 marks.

Subjects	Total Marks	Negative Marking
Physics	80 marks	-1 mark for each incorrect answer
Mathematics	180 marks
English	100 marks
Total	360 marks

For BTech (Lateral Entry-B.Sc. PCM Eligibility): The total marks of the question paper will be 180 marks that are 60 marks for each section.

Subjects	Total Marks	Negative Marking
Physics	60 marks	-1 mark for each incorrect answer
Mathematics	60 marks
English	60 marks
Total	180 marks

For BTech (Lateral Entry- Diploma Eligibility): The maximum marks of the question paper will be 180 marks.

Subjects	Total Marks	Negative Marking
Relevant branch	180 marks	-1 mark for each incorrect answer
Total	180 marks	-1 mark for each incorrect answer

GLAET 2025 Exam Pattern for Other Courses

Candidates can download the PDF below for the exam pattern of all courses:

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Explore subject-wise topics asked in GLAET

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Maths

Physics

Chemistry

Complement of a Set Equal Sets Universal Set Finite and Infinite Set Empty Set Sets and their Representations Relations and Functions Cartesian Products of Sets Functions Relations Binomial Theorem Binomial Theorem for Positive Integral Index Composition of Functions and Invertible Function Types of Functions Types of Relations Properties of Inverse Trigonometric Functions Inverse Trigonometric Functions Basic Concepts of Inverse Trigonometric Functions Types of Matrix Transpose of a Matrix Symmetric and Skew Symmetric Matrices Invertible Matrices Operations on Matrices Determinants Determinants Integration as Inverse Process of Differentiation Differentiation Standard Deviation Assumed Mean Method Correlation and Regression Z Score Table Cube and Cuboid Complement of a Set Equal Sets Universal Set Finite and Infinite Set Empty Set Sets and their Representations Relations and Functions Cartesian Products of Sets Functions Relations Binomial Theorem Binomial Theorem for Positive Integral Index Composition of Functions and Invertible Function Types of Functions Types of Relations Properties of Inverse Trigonometric Functions Inverse Trigonometric Functions Basic Concepts of Inverse Trigonometric Functions Types of Matrix Transpose of a Matrix Symmetric and Skew Symmetric Matrices Invertible Matrices Operations on Matrices Determinants Determinants Integration as Inverse Process of Differentiation Differentiation Standard Deviation Assumed Mean Method Correlation and Regression Z Score Table Cube and Cuboid Overview DIMENSIONS OF PHYSICAL QUANTITIES DIMENSIONAL FORMULAE Significant Figures DIMENSIONAL ANALYSIS AND ITS APPLICATIONS INTERNATIONAL SYSTEM OF UNITS Overview Change of State Ideal Gas Equation and Absolute Temperature Thermal Expansion Heat Transfer Specific Heat Calorimetry Temperature and Heat Measurement of Temperature Thermodynamic Process Carnot Engine Reversible and Irreversible Process Thermal Equilibrium Thermodynamic State Variables Equation of State Overview First Law of Thermodynamics Second Law of Thermodynamics Behaviour of Gases Kinetic Theory of Ideal Gas Overview Periodic and Oscillatory Motion Simple Pendulum Simple Harmonic Motion Overview Speed of a Travelling Wave Displacement Relation in a Progressive Wave Superposition Principle Beats Reflection of Waves Kinematic Equation Uniformly of Accelerated Motion Instantaneous Velocity and Speed Overview Acceleration Resolution of Vectors Vector Addition by Analytical Method Scalars and Vectors Multiplication of Vectors by Real Numbers Addition and Subtraction of Vectors Overview Projectile Motion Motion in a Plane Conservation of Momentum Equilibrium of a Particle Circular Motion Common Forces in Mechanics Solving Problems in Mechanics Conservation of Mechanical Energy Potential Energy of Spring Power Kinetic Energy Collision Work Concept of Potential Energy Moment of Inertia Overview Centre of Mass Vector Product of Two Vectors Torque and Angular Momentum Motion of Centre of Mass Equilibrium of a Rigid Body Overview Angular Velocity and Relation with Linear Velocity Dynamics of Rotational Motion About a Fixed Axis Kinematics of Rotational Motion About a Fixed Axis Angular Momentum of Rotation About a Fixed Axis Keplers Law Overview Escape Speed Earth Satellites Energy of an Orbiting Satellite Stress Strain Curve Elastic Moduli Applications of Elastic Behaviour of Materials Surface Tension Bernoulli Principle Pressure in Fluids Viscosity Streamline Flow Forces between Multiple Charges Conductors and Insulators Basic Properties of Electric Charge Electric Charge Electric Charge and Field Electric Flux Electric Charge and Field Electric Field Lines Continuous Charge Distribution Interference Light Waves Youngs Experiment Refraction Reflection Plane Wave Huygens Principle Refraction Reflection Plane Wave Huygens Principle Einstein Photoelectric Theory Photoelectric Effect Wave Theory Light Photoelectric Effect Electron Emission Overview Bohr Model of Hydrogen Atom Radioactivity Physics Nuclei Overview Size of Nucleus Binding Energy Nuclear Energy Semiconductor Devices Overview Semiconductor Devices Overview Semiconductor Diode Diode as Rectifier Intrinsic Semiconductor Extrinsic Semiconductor Overview Potential Due to Point Charge Combination of Capacitors Electrostatic Potential Energy Stored in a Capacitor Capacitors and Capacitance Effect of Dielectric on Capacitance Electrostatics of Conductors Potential Energy of a System of Charges Potential due to a System of Charges Electric Current Overview Electrical Energy and Power Temperature Dependence of Resistivity Wheatstone Bridge Overview Ohms Law Kirchhoffs Law Drift of Electrons and the Origin of Resistivity Torque on Current Loop Magnetic Dipole Motion in Magnetic Field Solenoid Magnetic Field due to a Current Element Magnetic Field on Axis of Circular Current Loop Ampere Circuital Law Magnetic Force Overview Moving Coil Galvanometer Magnetism and Matter Magnetic Properties of Materials Magnetisation and Magnetic Intensity Bar Magnet Electromagnetism Motional Electromotive Force Experiments of Faraday and Henry Alternating Current Overview Transformer AC Voltage Applied to a Resistor AC Voltage Applied to an Inductor AC Voltage applied to a Capacitor AC Voltage applied to a Series LCR circuit Representation of AC Current and Voltage by Vector Electromagnetic Spectrum Electromagnetic Waves Displacement Current Total Internal Reflection Refraction through a Prism Optical Instruments Derivation of Lens Formula Reflection of Light by Spherical Mirrors Refraction at Spherical Surface and by Lenses Derive Equation of Motion by Calculus method Alternating Current Overview Mole Concept and Molar Mass STOICHIOMETRY AND STOICHIOMETRIC CALCULATIONS Percentage Composition Laws of Chemical Combination Atomic and Molecular Masses Properties of Matter and their Measurement Importance of Chemistry Overview Overview Atomic Models Discovery of Sub Atomic Particles Towards Quantum Mechanical Model of Atom Quantum Mechanical Model of Atom Electronic Configuration Types of Elements Periodic Table Electronic Configuration of Element Periodic Trends in Properties of Elements Genesis of Periodic Classification Nomenclature of Elements with Atomic Numbers Present Form of Periodic Table Chemical Bonding and Molecular Structure Hybridization Valence Bond Theory Molecular Orbital Theory Hydrogen Bonding Ionic or Electrovalent Bond Kossel-Lewis Approach to Chemical Bonding Bond Parameters Bonding in Homonuclear Diatomic Molecules VSEPR Theory Applications of Chemical Bonding Equilibrium Processes Homogeneous Equilibria Factors Affecting Equilibria Applications of Equilibrium Constant Ionization of Acids and Bases Ionic Equilibrium in Solution Equilibrium in Chemical Processes Solubility Equilibria of Sparingly Soluble Salts Heter Heterogeneous Equilibria Oxidation Number Classification of Organic Compounds Isomerism Nomenclature of Organic Compounds Quantitative Analysis Qualitative Analysis of Organic Compounds Overview Structural Representations of Organic Compounds Fundamental Concepts in Organic Reaction Mechanism Tetravalence of Carbon Shapes of Organic Compounds Methods of Purification of Organic Compounds Classification Alkanes Alkenes Alkynes Aromatic Hydrocarbon Carcinogenicity and Toxicity Abnormal Molar Mass Colligative Properties and Molar Mass Solubility Proteins Vitamins Carbohydrates Enzymes Hormones Nucleic Acids Electrolytic Cells and Electrolysis Corrosion Galvanic Cell Fuel Cells Nernst Equation Electrochemical Cells Batteries Rate of Reaction Integrated Rate Equations Collision Theory of Chemical Reactions Temperature Dependence of the Rate of a Reaction Factors Influencing Rate of a Reaction Bonding in Metal Carbonyls Difference between Glucose and Fructose

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