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This master's programme will prepare you for a professional career in the private or public sector, both nationally and internationally. As a student, you will acquire a broad insight into the areas of physics that will form the basis for the advanced technologies of today and tomorrow. You will be able to identify and explain general aspects of physics that are integral to applications in engineering and natural sciences. Furthermore, you will be able to identify relevant theoretical, computational and experimental methods and apply these to problem-solving across a wide range of disciplines or multi-disciplinary fields.
The master's programme in Physics is intended for students with a strong interest in theoretical, computational, and/or experimental aspects of physics and astronomy. In short, theory provides models and concepts that can explain and predict experimental observations. The use of computers allows for numerical computation of the fundamental laws of physics and use of advanced techniques, e.g. machine learning.
Finally, the use of advanced instrumentation, both in-house and at large facilities e.g Onsala Space Observatory, will provide the students with in-depth knowledge of material and biological systems, and of distant stars and galaxies. In the core courses of the programme, focus lies in providing the students with a solid understanding of the fundamental principles of physics, thereby preparing them for a future driven by knowledge and technology. The students are recommended to choose two out of four different specializations, namely astronomy, computational physics, high-energy physics or materials science.
Examples of research activities include the study of string theory, computational methods to understand the atomic and sub-atomic scale, energy-related materials, such as lithium batteries, and materials for specific applications, such as nanoplasmonics, interfaces between biological systems and inorganic structures, and advanced experiments, in which state-of-the-art instruments contribute to an understanding of both the microscopic world and astrophysical phenomena.
Topics covered
The subjects of biotechnical physics and computational science are fundamental areas in the Physics master’s programme. The courses included in the programme plan handle topics such as astronomy and materials imaging.
This master's programme will prepare you for a professional career in the private or public sector, both nationally and internationally. As a student, you will acquire a broad insight into the areas of physics that will form the basis for the advanced technologies of today and tomorrow. You will be able to identify and explain general aspects of physics that are integral to applications in engineering and natural sciences. Furthermore, you will be able to identify relevant theoretical, computational and experimental methods and apply these to problem-solving across a wide range of disciplines or multi-disciplinary fields.
The master's programme in Physics is intended for students with a strong interest in theoretical, computational, and/or experimental aspects of physics and astronomy. In short, theory provides models and concepts that can explain and predict experimental observations. The use of computers allows for numerical computation of the fundamental laws of physics and use of advanced techniques, e.g. machine learning.
Finally, the use of advanced instrumentation, both in-house and at large facilities e.g Onsala Space Observatory, will provide the students with in-depth knowledge of material and biological systems, and of distant stars and galaxies. In the core courses of the programme, focus lies in providing the students with a solid understanding of the fundamental principles of physics, thereby preparing them for a future driven by knowledge and technology. The students are recommended to choose two out of four different specializations, namely astronomy, computational physics, high-energy physics or materials science.
Examples of research activities include the study of string theory, computational methods to understand the atomic and sub-atomic scale, energy-related materials, such as lithium batteries, and materials for specific applications, such as nanoplasmonics, interfaces between biological systems and inorganic structures, and advanced experiments, in which state-of-the-art instruments contribute to an understanding of both the microscopic world and astrophysical phenomena.
Topics covered
The subjects of biotechnical physics and computational science are fundamental areas in the Physics master’s programme. The courses included in the programme plan handle topics such as astronomy and materials imaging.
Admission Requirements
62+
6.5+
90+
180+
Bachelor's degree with a major in: Engineering Physics, Physics, Electrical Engineering, Material Science or Chemical Engineering or the equivalent
Prerequisites: Mathematics (at least 30 cr.), Quantum Physics and Solid State Physics
2 Years
Sep
International
160,000 SEK
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
Physics, MSc
Campus Johanneberg, Gothenburg, Sweden
# 149QS Subject Rankings
24 monthsProgramme duration
160,000 SEKTuition Fee/year
Physics and AstronomyMain Subject Area
Programme overview
Main Subject
Physics and Astronomy
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Physics master's programme at Chalmers
This master's programme will prepare you for a professional career in the private or public sector, both nationally and internationally. As a student, you will acquire a broad insight into the areas of physics that will form the basis for the advanced technologies of today and tomorrow. You will be able to identify and explain general aspects of physics that are integral to applications in engineering and natural sciences. Furthermore, you will be able to identify relevant theoretical, computational and experimental methods and apply these to problem-solving across a wide range of disciplines or multi-disciplinary fields.
The master's programme in Physics is intended for students with a strong interest in theoretical, computational, and/or experimental aspects of physics and astronomy. In short, theory provides models and concepts that can explain and predict experimental observations. The use of computers allows for numerical computation of the fundamental laws of physics and use of advanced techniques, e.g. machine learning.
Finally, the use of advanced instrumentation, both in-house and at large facilities e.g Onsala Space Observatory, will provide the students with in-depth knowledge of material and biological systems, and of distant stars and galaxies. In the core courses of the programme, focus lies in providing the students with a solid understanding of the fundamental principles of physics, thereby preparing them for a future driven by knowledge and technology. The students are recommended to choose two out of four different specializations, namely astronomy, computational physics, high-energy physics or materials science.
Examples of research activities include the study of string theory, computational methods to understand the atomic and sub-atomic scale, energy-related materials, such as lithium batteries, and materials for specific applications, such as nanoplasmonics, interfaces between biological systems and inorganic structures, and advanced experiments, in which state-of-the-art instruments contribute to an understanding of both the microscopic world and astrophysical phenomena.
Topics covered
The subjects of biotechnical physics and computational science are fundamental areas in the Physics master’s programme. The courses included in the programme plan handle topics such as astronomy and materials imaging.
Programme overview
Main Subject
Physics and Astronomy
Degree
MSc
Study Level
Masters
Study Mode
On Campus
Physics master's programme at Chalmers
This master's programme will prepare you for a professional career in the private or public sector, both nationally and internationally. As a student, you will acquire a broad insight into the areas of physics that will form the basis for the advanced technologies of today and tomorrow. You will be able to identify and explain general aspects of physics that are integral to applications in engineering and natural sciences. Furthermore, you will be able to identify relevant theoretical, computational and experimental methods and apply these to problem-solving across a wide range of disciplines or multi-disciplinary fields.
The master's programme in Physics is intended for students with a strong interest in theoretical, computational, and/or experimental aspects of physics and astronomy. In short, theory provides models and concepts that can explain and predict experimental observations. The use of computers allows for numerical computation of the fundamental laws of physics and use of advanced techniques, e.g. machine learning.
Finally, the use of advanced instrumentation, both in-house and at large facilities e.g Onsala Space Observatory, will provide the students with in-depth knowledge of material and biological systems, and of distant stars and galaxies. In the core courses of the programme, focus lies in providing the students with a solid understanding of the fundamental principles of physics, thereby preparing them for a future driven by knowledge and technology. The students are recommended to choose two out of four different specializations, namely astronomy, computational physics, high-energy physics or materials science.
Examples of research activities include the study of string theory, computational methods to understand the atomic and sub-atomic scale, energy-related materials, such as lithium batteries, and materials for specific applications, such as nanoplasmonics, interfaces between biological systems and inorganic structures, and advanced experiments, in which state-of-the-art instruments contribute to an understanding of both the microscopic world and astrophysical phenomena.
Topics covered
The subjects of biotechnical physics and computational science are fundamental areas in the Physics master’s programme. The courses included in the programme plan handle topics such as astronomy and materials imaging.
Admission Requirements
International
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
How to get a full scholarship
Looking for a fully-funded scholarship to see you into university? Find out how to boost your chances of getting one.
Scholarships to study abroad
Find scholarships to study abroad with our lists of international scholarships – categorized by country, by subject, and by type of student.
Scholarship Applications: Frequently Asked Questions
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