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Table of Contents
Understanding TestAS
What is TestAS?
Purpose of the Exam
- Objective Assessment: TestAS provides an objective measure of an applicant’s academic potential, helping universities make informed admission decisions.
- Fair Comparison: It allows for a fair comparison between applicants from different countries, leveling the playing field for all candidates.
- Language Independence: The test focuses on cognitive abilities rather than language proficiency, making it accessible to a wider range of applicants.
- Improved Admission Chances: A good TestAS score can enhance an applicant’s chances of securing admission to their desired university and program.
TestAS Validity
TestAS Eligibility
- Academic Qualification: Applicants must have completed or be in the final year of their secondary education.
- Language Proficiency: While TestAS itself is not a language test, applicants are required to have a minimum of B1 level proficiency in the language of instruction for their intended program, as per the Common European Framework of Reference for Languages (CEFR). To assess your language skills, you can register for exams such as onSET or TestDaF.
TestAS Registration
- Begin by visiting the official TestAS website. Enter your contact details, including your email address and phone number.
- Upon submission, you will receive a confirmation email. Once confirmed, usernames and passwords will be generated for logging into the system.
- Log in using the generated username and password to select your preferred test date and test center.
- Choose the language in which you wish to take the test, along with the core subject and module relevant to your academic aspirations.
- To finalize your registration, proceed to pay the application fee (150 Euros). The fee amount can vary and will be specified at the time of registration.
TestAS Format and Sections
Core Test Module:
- Quantitative Questions: This section evaluates mathematical reasoning and problem-solving abilities. Students must provide detailed solutions, including mathematical proofs and rough workings, within 45 minutes.
- Relationship Inference: Students analyze word pairs to identify common themes and relationships. They have 10 minutes to complete 22 questions in this subtest.
- Pattern Completion: Presented with a chart containing eight figures and one question mark, students must deduce and apply the governing rule to determine the missing figure. This subtest allows 20 minutes for completion.
- Numerical Series: This section tests understanding of numerical patterns and sequences. Basic arithmetic skills like addition, subtraction, multiplication, and division are sufficient for solving these 22 questions within 25 minutes.
Section | Description | Number of Questions | Time (minutes) |
Quantitative Questions | Evaluates mathematical reasoning and problem-solving abilities, requiring detailed solutions, including mathematical proofs and rough workings. | 22 | 45 |
Relationship Inference | Analyzes word pairs to identify common themes and relationships. | 22 | 10 |
Pattern Completion | Presented with a chart containing eight figures and one question mark, students deduce and apply the governing rule to determine the missing figure. | 22 | 20 |
Numerical Series | Tests understanding of numerical patterns and sequences using basic arithmetic skills. | 22 | 25 |
Subject-Specific Test Module:
- Understanding & Interpreting Texts: Tests reading comprehension and the ability to draw conclusions from written passages. Students have 45 minutes to answer 22 questions.
- Flexibility in Using Representation Systems: Evaluates the ability to translate textual information into graphical representations and vice versa. This section focuses on analytical reasoning and visual literacy, with 55 minutes allotted for 22 questions.
- Recognizing Linguistic Structures: Measures proficiency in identifying language patterns and relationships, including the ability to derive meanings from unfamiliar words and grammar. Students have 50 minutes to answer 22 questions.
Subtest | Description | Number of Questions | Time (minutes) |
Understanding & Interpreting Texts | Tests reading comprehension and the ability to draw conclusions from written passages. | 22 | 45 |
Flexibility in Using Representation Systems | Evaluates the ability to translate textual information into graphical representations and vice versa, focusing on analytical reasoning and visual literacy. | 22 | 55 |
Recognizing Linguistic Structures | Measures proficiency in identifying language patterns and relationships, including deriving meanings from unfamiliar words and grammar. | 22 | 50 |
- Formalizing Technical Interrelationships: Tests the ability to convert scientific and technical concepts into formal representations, emphasizing physics principles. Students are given 60 minutes to solve 22 questions.
- Visualizing Solids: Assesses spatial awareness by requiring students to interpret three-dimensional objects from different perspectives. This section includes 26 questions split into two parts, each part allotted 30 minutes.
- Analyzing Technical Interrelationships: Evaluates the analysis and explanation of technical data presented in charts, graphs, and tables across various scientific disciplines. Students have 60 minutes to answer 22 questions.
Subtest | Description | Number of Questions | Time (minutes) |
Formalizing Technical Interrelationships | Tests the ability to convert scientific and technical concepts into formal representations, emphasizing physics principles. | 22 | 60 |
Visualizing Solids | Assesses spatial awareness by interpreting three-dimensional objects from different perspectives. | 26 | 60 (30 minutes each part) |
Analyzing Technical Interrelationships | Evaluates the analysis and explanation of technical data presented in charts, graphs, and tables across various scientific disciplines. | 22 | 60 |
- Analyzing Scientific Interrelationships: Tests understanding of scientific concepts through textual and visual data, covering topics in botany and geography among others. Students have 60 minutes to solve 22 questions.
- Understanding Formal Depictions: Assesses the ability to interpret and manipulate data represented in flowcharts and other visual formats, with 85 minutes provided for 22 questions.
Subtest | Description | Number of Questions | Time (minutes) |
Analyzing Scientific Interrelationships | Tests understanding of scientific concepts through textual and visual data, covering topics in botany and geography, among others. | 22 | 60 |
Understanding Formal Depictions | Assesses the ability to interpret and manipulate data represented in flowcharts and other visual formats. | 22 | 85 |
- Analyzing Economic Interrelationships: Evaluates the ability to analyze economic data presented in tables, charts, and diagrams. Students have 65 minutes to answer 22 questions.
- Analyzing Processes: Tests critical thinking and analytical skills by converting economic information into visual representations. This section includes questions that integrate semi-natural science elements. Students are given 65 minutes to complete 22 questions.
Subtest | Description | Number of Questions | Time (minutes) |
Analyzing Economic Interrelationships | Evaluates the ability to analyze economic data presented in tables, charts, and diagrams. | 22 | 65 |
Analyzing Processes | Tests critical thinking and analytical skills by converting economic information into visual representations, integrating semi-natural science elements. | 22 | 65 |
Tips and Strategies to Ace the TestAS Examination
- Understand the Format: Familiarize yourself with the test format and types of questions by reviewing sample papers and practice tests available on the TestAS website.
- Focus on Time Management: Practice managing your time effectively, as each section has a strict time limit. Prioritize easier questions to ensure you secure those marks first.
- Revise Basics: Brush up on basic mathematical and logical reasoning skills. Ensure you are comfortable with fundamental concepts and problem-solving techniques.
- Practice Reading: Improve your reading speed and comprehension skills by regularly reading academic articles and texts.
- Simulate Test Conditions: Take full-length practice tests under simulated test conditions to build stamina and reduce anxiety on the actual test day.
- Focus on Weak Areas: Identify your weak areas and allocate extra time to practice and improve those skills.
- Stay Calm and Confident: Maintain a positive attitude and stay calm during the test. Confidence can significantly impact your performance.
Beyond Admissions: Additional Benefits of TestAS
- Scholarship Opportunities: A high TestAS score can enhance your eligibility for various scholarships and financial aid programs offered by German universities and external organizations.
- Academic Preparation: Preparing for TestAS can help you develop critical thinking and problem-solving skills that are essential for academic success in Germany.
- Career Readiness: The skills assessed in TestAS, such as analytical thinking and logical reasoning, are highly valued by employers, enhancing your career prospects post-graduation.
- Personal Development: The rigorous preparation for TestAS fosters discipline, time management, and perseverance, contributing to your overall personal development.
Conclusion:
FAQs
- Core Test: Evaluates general academic skills such as language proficiency, mathematical reasoning, and logical thinking.
- Subject-Specific Test: Assesses specific academic knowledge related to your chosen field of study, with modules available in Humanities, Engineering, Economics, and Mathematics, Computer Science & Natural Sciences.
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