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DTU LEET Pattern 2025: Know Marking Scheme & Exam Duration

Delhi Technological University Lateral Entry Entrance Test 2025 ( DTU LEET )

Saakshi Varsha Lama
Updated on Sep 26, 2025 09:54 IST

By Saakshi Varsha Lama, Deputy Manager Content

DTU LEET 2025 exam pattern describes the layout of the question paper. Candidates aspiring for admission through DTU LEET 2025 must go through the exam pattern before devising their preparation strategy. DTU LEET exam pattern 2025 will impart knowledge of the total no. of questions, marking scheme, exam duration, etc. Besides exam patterns, candidates must be well acquainted with the DTU LEET syllabus to keep their preparation on track. A good preparation strategy will lead the candidates to the road to success. Look into more details about the exam pattern of DTU LEET below.

Table of content
  • DTU LEET 2025 Exam Pattern
  • DTU LEET Exam Pattern 2025: Marking Scheme
DTU LEET Logo

DTU LEET 2025 Exam Pattern

DTU LEET will take place in offline mode. DTU LEET question paper shall comprise questions from different subjects like Mathematics and General aptitude & reasoning. There will be a total of 90 objective-type questions. Candidates have to choose one correct option out of four. They will get two hours of time to solve the question paper. 

Subjects Total Questions Duration
Mathematics 90 questions 2 Hours
General aptitude & reasoning
Q&A Icon
Commonly asked questions
Q:   How many marks will be deducted for each incorrect answer in DTU LEET?
A: 

The marking scheme for DTU LEET is as follows:

  • For each correct answer, the candidate will be awarded 4 marks.
  • For each incorrect answer, the candidate will be deducted 1 mark.

Therefore, if a candidate answers 90 questions correctly, they will be awarded 360 marks (90 x 4). However, if they answer 90 questions incorrectly, they will be deducted 90 marks (90 x -1). So, the total possible marks for the exam are 360, and the total possible deduction for incorrect answers is 90.

Q:   What is the exam pattern for DTU LEET?
A: 

Admissions to the B.Tech programmes under the lateral entry scheme are offered on the basis of a written test which is conducted by DTU.  The DTU LEET exam pattern is as follows

Duration: 2 hours
Mode of Exam: Written or online exam.
Marking Scheme: Every correct answer will be awarded four marks, and for every wrong answer, one mark will be deducted.
The merit will be prepared on the basis of DTU LEET examination scores, which will be calculated on the basis of the candidate's performance in the written/online test.

Q:   How many marks will be awarded for each correct answer in DTU LEET?
A: 

The candidates will be awarded four marks for each correct answer in the DTU LEET 2024 exam. There will be one mark deducted for wrong answers. The candidates must be extremely careful while answering the questions to avoid negative marks. There will be any marks deducted for the unanswered questions. 

DTU LEET Logo

DTU LEET Exam Pattern 2025: Marking Scheme

Candidates will be awarded four marks for each correct answer whereas one mark will be deducted for every incorrect answer. 

Particulars Total Questions
For each correct answer +4 marks
For each incorrect answer -1 mark
Q&A Icon
Commonly asked questions
Q:   How many questions will be asked in the DTU LEET exam?
A: 

The DTU LEET exam will have a total of 90 questions. The exam will be conducted in offline mode, and the question paper will consist of questions from Mathematics, General aptitude, and Reasoning. Each question will have four options, and candidates will have to choose one correct option. The duration of the exam will be two hours. There is one mark deducted for incorrect answers, and four marks will be awarded for each correct answer.

Q:   In which mode will the DTU LEET exam be conducted?
A: 

The DTU LEET exam will be conducted in online mode. The exam will be conducted in a two-hour duration, and candidates will have to complete it within that time frame. The exam will consist of multiple-choice questions from various subjects, including Mathematics and General aptitude & reasoning. Each correct answer will be awarded four marks, while each incorrect answer will result in a deduction of one mark. Therefore, it's crucial for candidates to answer all questions accurately and within the given time frame.

Q:   From which subjects will the questions be asked in DTU LEET?
A: 

The questions in DTU LEET will be asked from the following subjects:

  • Mathematics
  • General aptitude and Reasoning

There will be 90 questions asked in DTU LEET.  The questions will be all objective type. The duration of exam is for 2 hours. 

Explore subject-wise topics asked in DTU LEET

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Complement of a SetEqual SetsUniversal SetFinite and Infinite SetEmpty SetSets and their RepresentationsRelations and FunctionsCartesian Products of SetsFunctionsRelationsBinomial TheoremBinomial Theorem for Positive Integral IndexComposition of Functions and Invertible FunctionTypes of FunctionsTypes of RelationsProperties of Inverse Trigonometric FunctionsInverse Trigonometric FunctionsBasic Concepts of Inverse Trigonometric FunctionsTypes of MatrixTranspose of a MatrixSymmetric and Skew Symmetric MatricesInvertible MatricesOperations on MatricesDeterminantsDeterminantsIntegration as Inverse Process of DifferentiationDifferentiationStandard DeviationAssumed Mean MethodCorrelation and RegressionZ Score TableCube and CuboidComplement of a SetEqual SetsUniversal SetFinite and Infinite SetEmpty SetSets and their RepresentationsRelations and FunctionsCartesian Products of SetsFunctionsRelationsBinomial TheoremBinomial Theorem for Positive Integral IndexComposition of Functions and Invertible FunctionTypes of FunctionsTypes of RelationsProperties of Inverse Trigonometric FunctionsInverse Trigonometric FunctionsBasic Concepts of Inverse Trigonometric FunctionsTypes of MatrixTranspose of a MatrixSymmetric and Skew Symmetric MatricesInvertible MatricesOperations on MatricesDeterminantsDeterminantsIntegration as Inverse Process of DifferentiationDifferentiationStandard DeviationAssumed Mean MethodCorrelation and RegressionZ Score TableCube and CuboidOverviewDIMENSIONS OF PHYSICAL QUANTITIESDIMENSIONAL FORMULAESignificant FiguresDIMENSIONAL ANALYSIS AND ITS APPLICATIONSINTERNATIONAL SYSTEM OF UNITSOverviewChange of StateIdeal Gas Equation and Absolute TemperatureThermal ExpansionHeat TransferSpecific HeatCalorimetryTemperature and HeatMeasurement of TemperatureThermodynamic ProcessCarnot EngineReversible and Irreversible ProcessThermal EquilibriumThermodynamic State Variables Equation of StateOverviewFirst Law of ThermodynamicsSecond Law of ThermodynamicsBehaviour of GasesKinetic Theory of Ideal GasOverviewPeriodic and Oscillatory MotionSimple PendulumSimple Harmonic MotionOverviewSpeed of a Travelling WaveDisplacement Relation in a Progressive WaveSuperposition PrincipleBeatsReflection of WavesKinematic Equation Uniformly of Accelerated MotionInstantaneous Velocity and SpeedOverviewAccelerationResolution of VectorsVector Addition by Analytical MethodScalars and VectorsMultiplication of Vectors by Real NumbersAddition and Subtraction of VectorsOverviewProjectile MotionMotion in a PlaneConservation of MomentumEquilibrium of a ParticleCircular MotionCommon Forces in MechanicsSolving Problems in MechanicsConservation of Mechanical EnergyPotential Energy of SpringPowerKinetic EnergyCollisionWorkConcept of Potential EnergyMoment of InertiaOverviewCentre of MassVector Product of Two VectorsTorque and Angular MomentumMotion of Centre of MassEquilibrium of a Rigid BodyOverviewAngular Velocity and Relation with Linear VelocityDynamics of Rotational Motion About a Fixed AxisKinematics of Rotational Motion About a Fixed AxisAngular Momentum of Rotation About a Fixed AxisKeplers LawOverviewEscape SpeedEarth SatellitesEnergy of an Orbiting SatelliteStress Strain CurveElastic ModuliApplications of Elastic Behaviour of MaterialsSurface TensionBernoulli PrinciplePressure in FluidsViscosityStreamline FlowForces between Multiple ChargesConductors and InsulatorsBasic Properties of Electric ChargeElectric ChargeElectric Charge and FieldElectric FluxElectric Charge and FieldElectric Field LinesContinuous Charge DistributionInterference Light Waves Youngs ExperimentRefraction Reflection Plane Wave Huygens PrincipleRefraction Reflection Plane Wave Huygens PrincipleEinstein Photoelectric TheoryPhotoelectric Effect Wave Theory LightPhotoelectric EffectElectron EmissionOverviewBohr Model of Hydrogen AtomRadioactivityPhysics Nuclei OverviewSize of NucleusBinding EnergyNuclear EnergySemiconductor Devices OverviewSemiconductor Devices OverviewSemiconductor DiodeDiode as RectifierIntrinsic SemiconductorExtrinsic SemiconductorOverviewPotential Due to Point ChargeCombination of CapacitorsElectrostatic PotentialEnergy Stored in a CapacitorCapacitors and CapacitanceEffect of Dielectric on CapacitanceElectrostatics of ConductorsPotential Energy of a System of ChargesPotential due to a System of ChargesElectric CurrentOverviewElectrical Energy and PowerTemperature Dependence of ResistivityWheatstone BridgeOverviewOhms LawKirchhoffs LawDrift of Electrons and the Origin of ResistivityTorque on Current Loop Magnetic DipoleMotion in Magnetic FieldSolenoidMagnetic Field due to a Current ElementMagnetic Field on Axis of Circular Current LoopAmpere Circuital LawMagnetic ForceOverviewMoving Coil GalvanometerMagnetism and MatterMagnetic Properties of MaterialsMagnetisation and Magnetic IntensityBar MagnetElectromagnetismMotional Electromotive ForceExperiments of Faraday and HenryAlternating Current OverviewTransformerAC Voltage Applied to a ResistorAC Voltage Applied to an InductorAC Voltage applied to a CapacitorAC Voltage applied to a Series LCR circuitRepresentation of AC Current and Voltage by VectorElectromagnetic SpectrumElectromagnetic WavesDisplacement CurrentTotal Internal ReflectionRefraction through a PrismOptical InstrumentsDerivation of Lens FormulaReflection of Light by Spherical MirrorsRefraction at Spherical Surface and by LensesDerive Equation of Motion by Calculus methodAlternating Current OverviewMole Concept and Molar MassSTOICHIOMETRY AND STOICHIOMETRIC CALCULATIONSPercentage CompositionLaws of Chemical CombinationAtomic and Molecular MassesProperties of Matter and their MeasurementImportance of ChemistryOverviewOverviewAtomic ModelsDiscovery of Sub Atomic ParticlesTowards Quantum Mechanical Model of AtomQuantum Mechanical Model of AtomElectronic Configuration Types of ElementsPeriodic Table Electronic Configuration of ElementPeriodic Trends in Properties of ElementsGenesis of Periodic ClassificationNomenclature of Elements with Atomic NumbersPresent Form of Periodic TableChemical Bonding and Molecular StructureHybridizationValence Bond TheoryMolecular Orbital TheoryHydrogen BondingIonic or Electrovalent BondKossel-Lewis Approach to Chemical BondingBond ParametersBonding in Homonuclear Diatomic MoleculesVSEPR TheoryApplications of Chemical BondingEquilibrium ProcessesHomogeneous EquilibriaFactors Affecting EquilibriaApplications of Equilibrium ConstantIonization of Acids and BasesIonic Equilibrium in SolutionEquilibrium in Chemical ProcessesSolubility Equilibria of Sparingly Soluble SaltsHeter Heterogeneous EquilibriaOxidation NumberClassification of Organic CompoundsIsomerismNomenclature of Organic CompoundsQuantitative AnalysisQualitative Analysis of Organic CompoundsOverviewStructural Representations of Organic CompoundsFundamental Concepts in Organic Reaction MechanismTetravalence of Carbon Shapes of Organic CompoundsMethods of Purification of Organic CompoundsClassificationAlkanesAlkenesAlkynesAromatic HydrocarbonCarcinogenicity and ToxicityAbnormal Molar MassColligative Properties and Molar MassSolubilityProteinsVitaminsCarbohydratesEnzymesHormonesNucleic AcidsElectrolytic Cells and ElectrolysisCorrosionGalvanic CellFuel CellsNernst EquationElectrochemical CellsBatteriesRate of ReactionIntegrated Rate EquationsCollision Theory of Chemical ReactionsTemperature Dependence of the Rate of a ReactionFactors Influencing Rate of a ReactionBonding in Metal CarbonylsDifference between Glucose and Fructose
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