Single-Subject Prep

Includes:
100+ practice questions of the chosen subject
100+ Physics practice questions
100+ First-Year Material practice questions
100+ Mathematics practice questions
Mark scheme & worked solutions
Realistic exam simulation
Time management practice

More information

Focus your preparation on a specific subject with our Single Subject Practice Environment Access, offering a targeted approach to mastering the material for the TU Delft Aerospace Engineering entrance exam. Choose between Mathematics, Physics, or First-Year Material, and utilize the Mobius platform for a realistic practice experience. This package suits students aiming to enhance their proficiency in a particular area, providing a straightforward and effective means to prepare for the challenges of the entrance exam.

Mathematics practice exams

Immerse yourself in our extensive collection of Mathematics practice questions, specifically crafted to challenge and refine your grasp of crucial concepts integral to the Aerospace Engineering curriculum at TU Delft. From mastering functions and graphs to conquering differential and integral calculus, our material guarantees comprehensive preparation for aspiring aerospace engineers.

The math practice exams include questions on the following topics:

  • Functions and Graphs: recognition and drawing of polynomial functions, root functions, power functions, logarithmic functions, analyze and draw transformations of these standard functions, determine limits, domain, range, asymptotes and symmetry points, inverse functions
  • Algebraic Solving: isolating variables in an expression, rearrange expressions into simplified form, find roots of functions with factorization, solve system of linear equations
  • Differential Calculus: derivatives of standard functions, application of product/quotient/chain rule, first and second derivative and analyzing local maximums and minimums and local concave and convex behavior, inflection points, solve optimization problems
  • Integral Calculus: limits of integration, definite/indefinite integrals, calculate integral of standard functions, determining surface area, volume of a solid revolution, arc length and mean value of a function
  • Trigonometry: functions such as sin(x), cos(x), tan(x), unit circle, exact values of basic trigonometric functions for multiples of angles in the first quadrant, application of the Pythagorean identity, sum and difference identities, double angle formulae
  • Geometry: calculate surface and perimeter of two dimensional shapes, calculate volume and surface area of three dimensional objects, determination of lengths and angles with properties of lines, triangles, and quadrilaterals, formulate equations for lines and circles, intersections between lines and circles, distance between points, lines and circles
  • Vectors: determine length and direction of vectors, decompose vectors, dot product of two vectors, calculation of angles and distances between vectors, solve problems involving velocity, and acceleration of a point whose path is described by a time-dependent vector representation
Physics practice exams

Explore our Physics practice exams, spanning a broad spectrum of fundamental topics imperative for success in the TU Delft Aerospace Engineering entrance exam. Engage deeply with questions on mechanics, electric and magnetic fields, as well as vibrations and waves, all designed to sharpen your problem-solving abilities and solidify your understanding of essential physics principles.

The physics practice exams contain questions on the following topics:

  • Fundamentals: SI units, vector operations, metric prefixes, scientific notations, linear/logarithmic/double logarithmic diagrams, significant figures
  • Mechanics: relation between distance, velocity and acceleration, apply the laws of Newton, principles of work, energy, power and efficiency, circular motion in the context of planetary orbits.
  • Electric and Magnetic Fields: principles of electricity, construct and interpret circuit diagrams, electric power and efficiency, Coulomb's law, concepts of induction, flux homogenous and inhomogeneous magnetic fields, calculate Lorentz force
  • Properties of Fluids and Solids: macroscopic and microscopic view of gases, application of the ideal gas law, conversion between Celsius and Kelvin, calculations of thermal energy
  • Vibrations and Waves: principles of vibrations, period, frequency, amplitude, phase, resonance, damping, analyse simple harmonic motion, wave phenomena, speed, phase, wavelength
  • Modelling: interpret model studies in the context of the previous concepts
First-Year Material practice exams

Gear up for the advanced topics integral to the Aerospace Engineering program at TU Delft with our specialized First-Year Material practice exams. This section provides an in-depth exploration of aerodynamics, airplane performance, and propulsion, setting the stage for a focused and successful transition into your future aerospace studies.

The First Year Material practice exams contain questions on the following topics:

  • Aerodynamics: the continuity equation, incompressible and compressible flow, the momentum equation, basics of viscous flow
  • Aerodynamic shapes: wings, airfoils, lift, drag, and moment coefficients, airfoil data
  • Airplane performance: equations of motion, thrust level, power required, altitude effects on power required, rate of climb, gliding flight
  • Propulsion: the thrust equation, turbojet engine, turbofan engine, ramjet engine
Mark scheme & worked solutions

Each question is accompanied by a mark scheme. Multiple choice questions only have the answer, whereas open questions also have step-by-step worked solutions.

Single-Subject Prep mockup
€169
Purchase
Includes:
100+ practice questions of the chosen subject
100+ First-Year Material practice questions
100+ Mathematics practice questions
100+ Physics practice questions
Mark scheme & worked solutions
Realistic exam simulation
Time management practice
Single-Subject Prep Mockup
€169
Purchase

More information

Mathematics practice exams

Immerse yourself in our extensive collection of Mathematics practice questions, specifically crafted to challenge and refine your grasp of crucial concepts integral to the Aerospace Engineering curriculum at TU Delft. From mastering functions and graphs to conquering differential and integral calculus, our material guarantees comprehensive preparation for aspiring aerospace engineers.

The math practice exams include questions on the following topics:

  • Functions and Graphs: recognition and drawing of polynomial functions, root functions, power functions, logarithmic functions, analyze and draw transformations of these standard functions, determine limits, domain, range, asymptotes and symmetry points, inverse functions
  • Algebraic Solving: isolating variables in an expression, rearrange expressions into simplified form, find roots of functions with factorization, solve system of linear equations
  • Differential Calculus: derivatives of standard functions, application of product/quotient/chain rule, first and second derivative and analyzing local maximums and minimums and local concave and convex behavior, inflection points, solve optimization problems
  • Integral Calculus: limits of integration, definite/indefinite integrals, calculate integral of standard functions, determining surface area, volume of a solid revolution, arc length and mean value of a function
  • Trigonometry: functions such as sin(x), cos(x), tan(x), unit circle, exact values of basic trigonometric functions for multiples of angles in the first quadrant, application of the Pythagorean identity, sum and difference identities, double angle formulae
  • Geometry: calculate surface and perimeter of two dimensional shapes, calculate volume and surface area of three dimensional objects, determination of lengths and angles with properties of lines, triangles, and quadrilaterals, formulate equations for lines and circles, intersections between lines and circles, distance between points, lines and circles
  • Vectors: determine length and direction of vectors, decompose vectors, dot product of two vectors, calculation of angles and distances between vectors, solve problems involving velocity, and acceleration of a point whose path is described by a time-dependent vector representation
Physics practice exams

Explore our Physics practice exams, spanning a broad spectrum of fundamental topics imperative for success in the TU Delft Aerospace Engineering entrance exam. Engage deeply with questions on mechanics, electric and magnetic fields, as well as vibrations and waves, all designed to sharpen your problem-solving abilities and solidify your understanding of essential physics principles.

The physics practice exams contain questions on the following topics:

  • Fundamentals: SI units, vector operations, metric prefixes, scientific notations, linear/logarithmic/double logarithmic diagrams, significant figures
  • Mechanics: relation between distance, velocity and acceleration, apply the laws of Newton, principles of work, energy, power and efficiency, circular motion in the context of planetary orbits.
  • Electric and Magnetic Fields: principles of electricity, construct and interpret circuit diagrams, electric power and efficiency, Coulomb's law, concepts of induction, flux homogenous and inhomogeneous magnetic fields, calculate Lorentz force
  • Properties of Fluids and Solids: macroscopic and microscopic view of gases, application of the ideal gas law, conversion between Celsius and Kelvin, calculations of thermal energy
  • Vibrations and Waves: principles of vibrations, period, frequency, amplitude, phase, resonance, damping, analyse simple harmonic motion, wave phenomena, speed, phase, wavelength
  • Modelling: interpret model studies in the context of the previous concepts
First-Year Material practice exams

Gear up for the advanced topics integral to the Aerospace Engineering program at TU Delft with our specialized First-Year Material practice exams. This section provides an in-depth exploration of aerodynamics, airplane performance, and propulsion, setting the stage for a focused and successful transition into your future aerospace studies.

The First Year Material practice exams contain questions on the following topics:

  • Aerodynamics: the continuity equation, incompressible and compressible flow, the momentum equation, basics of viscous flow
  • Aerodynamic shapes: wings, airfoils, lift, drag, and moment coefficients, airfoil data
  • Airplane performance: equations of motion, thrust level, power required, altitude effects on power required, rate of climb, gliding flight
  • Propulsion: the thrust equation, turbojet engine, turbofan engine, ramjet engine
Mark scheme & worked solutions

Each question is accompanied by a mark scheme. Multiple choice questions only have the answer, whereas open questions also have step-by-step worked solutions.

Single-Subject Prep Mockup
€169
Purchase
Includes:
100+ practice questions of the chosen subject
100+ First-Year Material practice questions
100+ Physics practice questions
100+ Mathematics practice questions
Mark scheme & worked solutions
Realistic exam simulation
Time management practice

More information

Mathematics practice exams

Immerse yourself in our extensive collection of Mathematics practice questions, specifically crafted to challenge and refine your grasp of crucial concepts integral to the Aerospace Engineering curriculum at TU Delft. From mastering functions and graphs to conquering differential and integral calculus, our material guarantees comprehensive preparation for aspiring aerospace engineers.

The math practice exams include questions on the following topics:

  • Functions and Graphs: recognition and drawing of polynomial functions, root functions, power functions, logarithmic functions, analyze and draw transformations of these standard functions, determine limits, domain, range, asymptotes and symmetry points, inverse functions
  • Algebraic Solving: isolating variables in an expression, rearrange expressions into simplified form, find roots of functions with factorization, solve system of linear equations
  • Differential Calculus: derivatives of standard functions, application of product/quotient/chain rule, first and second derivative and analyzing local maximums and minimums and local concave and convex behavior, inflection points, solve optimization problems
  • Integral Calculus: limits of integration, definite/indefinite integrals, calculate integral of standard functions, determining surface area, volume of a solid revolution, arc length and mean value of a function
  • Trigonometry: functions such as sin(x), cos(x), tan(x), unit circle, exact values of basic trigonometric functions for multiples of angles in the first quadrant, application of the Pythagorean identity, sum and difference identities, double angle formulae
  • Geometry: calculate surface and perimeter of two dimensional shapes, calculate volume and surface area of three dimensional objects, determination of lengths and angles with properties of lines, triangles, and quadrilaterals, formulate equations for lines and circles, intersections between lines and circles, distance between points, lines and circles
  • Vectors: determine length and direction of vectors, decompose vectors, dot product of two vectors, calculation of angles and distances between vectors, solve problems involving velocity, and acceleration of a point whose path is described by a time-dependent vector representation
Physics practice exams

Explore our Physics practice exams, spanning a broad spectrum of fundamental topics imperative for success in the TU Delft Aerospace Engineering entrance exam. Engage deeply with questions on mechanics, electric and magnetic fields, as well as vibrations and waves, all designed to sharpen your problem-solving abilities and solidify your understanding of essential physics principles.

The physics practice exams contain questions on the following topics:

  • Fundamentals: SI units, vector operations, metric prefixes, scientific notations, linear/logarithmic/double logarithmic diagrams, significant figures
  • Mechanics: relation between distance, velocity and acceleration, apply the laws of Newton, principles of work, energy, power and efficiency, circular motion in the context of planetary orbits.
  • Electric and Magnetic Fields: principles of electricity, construct and interpret circuit diagrams, electric power and efficiency, Coulomb's law, concepts of induction, flux homogenous and inhomogeneous magnetic fields, calculate Lorentz force
  • Properties of Fluids and Solids: macroscopic and microscopic view of gases, application of the ideal gas law, conversion between Celsius and Kelvin, calculations of thermal energy
  • Vibrations and Waves: principles of vibrations, period, frequency, amplitude, phase, resonance, damping, analyse simple harmonic motion, wave phenomena, speed, phase, wavelength
  • Modelling: interpret model studies in the context of the previous concepts
First-Year Material practice exams

Gear up for the advanced topics integral to the Aerospace Engineering program at TU Delft with our specialized First-Year Material practice exams. This section provides an in-depth exploration of aerodynamics, airplane performance, and propulsion, setting the stage for a focused and successful transition into your future aerospace studies.

The First Year Material practice exams contain questions on the following topics:

  • Aerodynamics: the continuity equation, incompressible and compressible flow, the momentum equation, basics of viscous flow
  • Aerodynamic shapes: wings, airfoils, lift, drag, and moment coefficients, airfoil data
  • Airplane performance: equations of motion, thrust level, power required, altitude effects on power required, rate of climb, gliding flight
  • Propulsion: the thrust equation, turbojet engine, turbofan engine, ramjet engine
Mark scheme & worked solutions

Each question is accompanied by a mark scheme. Multiple choice questions only have the answer, whereas open questions also have step-by-step worked solutions.

The timeline

Mapping your journey

Mobius Account Creation

Within 10 minutes of purchase, you will receive an email to set up your Mobius account.

First Year Curriculum Update

On February 16th*, 2024 we will update our FYM. Before that date subject materials will be based on previous year's curriculum until updated content is released.

TU Delft Academic Test

Complete the academic test for TU Delft between March 1st - 17th*, 2024.

Mobius access expires

Your access to the mobius platform will expire on April 1st 2024.
*The dates marked with an asterisk may vary by a few days.

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Find your perfect package

Not sure which DelftPrep package is right for you? Take our short quiz to find your best fit.
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Frequently asked questions

Who should use DelftPrep?
DelftPrep is an invaluable resource for anyone aiming to excel in the Aerospace Engineering entrance exam at TU Delft, providing tailored preparation materials and support.
I didn't get in last year. Which package should I choose?
If you were close to passing the TU Delft Aerospace Engineering admission test last year, our All-Subject Prep Plan is ideal, focusing on extensive question practice. For those seeking a comprehensive review, including theory and problem-solving, our Crash Course is highly recommended.
How can I sign up for a free trial?
To sign up for a free trial, click the "Free trial" button on our homepage. You'll be added to a waitlist, and we'll contact you as soon as a slot opens up.
Is payment secure?
We use Stripe for all payment processing. Stripe has been audited by a PCI-certified auditor and holds a PCI Service Provider Level 1 certification, the most stringent in the payments industry.
Is DelftPrep affiliated with TU Delft?
DelftPrep operates independently from TU Delft, comprised of Aerospace Engineering alumni well-versed in the TU Delft Aerospace Engineering admission process.
How can I book private tutoring sessions?
Exclusive to our Crash Course + All-Subject Prep package students, private tutoring for TU Delft Aerospace Engineering prep can be arranged by emailing us for availability and rates.
How can I know which package is right for me?
To help you decide which package suits you best, we've developed an assessment quiz. This quiz considers your current level of preparation, study habits, and learning preferences. Based on your responses, it will recommend a package tailored to your needs.
How does DelftPrep's Full Assessment package work?
Our Full Assessment package offers a realistic practice environment, utilizing the same software as the TU Delft Aerospace Engineering entrance exam. Upon purchase, you will receive an email within 10 minutes containing all necessary details to access the Mobius platform and commence your preparation.
How is the online crash course conducted?
Our Online Crash Course unfolds through live sessions hosted on Zoom, covering essential topics for the Aerospace Engineering entrance exam at TU Delft. The course includes interactive Q&A sessions, ensuring a comprehensive and engaging learning experience. Discover more about the course dates .
How long will I have access to the Mobius platform?
You will have access to the Mobius platform until April 1st, 2024. After this date, your access will expire.
What is your refund policy?
Due to the non-returnable nature of our digital products once they're downloaded, all purchases are non-refundable. We offer a free trial to ensure you understand what you're purchasing.
How can I contact DelftPrep for further queries?
For further queries, please get in touch through the Contact Us form on our website or email us at contact@delftprep.nl. We'll get back to you as soon as possible.

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