4 Years
Under Graduate
Full Time
It is a degree in Biotechnology that is often regarded as the most lucrative degree program in the country. Unlike other fields, biotechnology is a fast-paced field, and requires continuous learning and research to advance. As a result, it is one of the most challenging degrees to obtain. However, with a well-rounded education and plenty of opportunities for career progression, biotechnology is a lucrative field for both students and companies.
In a B.Tech. program, you will study the theory and practice of biomedical engineering. This field is one of the fastest-growing fields, with an exponential growth in the population. Those with this degree will have a wide range of job prospects in biomedical technology, which includes all aspects of healthcare. It requires analytical skills and a keen understanding of physical factors, along with a strong interest in human health. The program is a combination of biology and engineering, and focuses on innovative techniques and processes to improve the health of populations.
Many biomedical engineers can expect a highly competitive salary package based on their expertise. While salary packages vary widely, the benefits are considerable. Advanced biomedical engineers can pursue postgraduate studies in the field and earn a doctorate. In the next few years, the growth in this field is projected to be as high as 7%. New medical tools and advanced technologies are fueling the demand for qualified individuals with a broad range of skills.
As a biomedical data analyst, you can use machine learning to fight diseases and create innovative treatments for them. You'll learn to apply artificial intelligence (AI) to the field of medicine, and you'll be able to apply it to drug discovery, vaccine development, and more. In addition, you'll be involved in real world projects, and you'll work alongside faculty on research to develop new methods for overcoming diseases.
The candidates must have completed their 10+2 in PCM/PCB. They need to have a minimum aggregate of 55%marks.
The future scope of B.Tech. in Biological Engineering is tremendous. There are many job opportunities in the biomedical sector. The population is aging rapidly, and this will create a need for highly qualified engineers. These individuals apply engineering concepts to everyday biological problems and design and test various medical instruments. They are also responsible for developing new drugs and devices. These professionals are in high demand for biomedical jobs.
The future scope of B.Tech. in Biological Engineering is vast. The study of biology and technology has enabled many life-saving devices. This is especially true in biomedical engineering. A graduate with an engineering background has a broader perspective of the field than one without a medical background.
Biomedical engineering is one of the fastest-growing fields in the field. The field of biomedical engineering is rapidly growing. The goal of this field is to improve human health through the use of technology and biomedicine. This combination has led to the creation of life-saving medical devices. These ultramodern apparatuses aim to extend human life and decrease disability. They are among the most sought-after professionals.
Biological engineers are the backbone of biomedical technology, and they play an essential role in the development of various medical devices. They have a wealth of skills and knowledge, and they can also develop novel technologies that help improve healthcare. In this field, jobs can be found in the development, testing, and repair of various medical devices. Other options include biomedical instrument designers and developers, clinical technicians, process development scientists, and microbiologist.
Despite the rapid growth of the field, the outlook for career prospects remains good. These individuals will be in demand in a variety of fields, including the biomedical and medical sectors. Biological engineering jobs often require a strong interest in the subject and the ability to continuously upgrade one's knowledge. Students who wish to enter this field will need to be persistent and attentive to changing trends and apply new technologies.
This degree will help students find jobs in a variety of fields, from healthcare to biotechnology. You will also have opportunities to work in research, development, and medicine.
The B.tech in Biological Engineering is a four year degree program. The average fees for the completion of program are between 400K to 1000K, or it may vary from college to college.
Agartala
National Institute of Technology Agartala (NIT Agartala)
10+2 in Related Stream From Recognized Board
4 Years
Under Graduate
Year 1st OR 1st and 2nd Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Professional Communication |
2 | Mathematics |
3 | Engineering Chemistry |
4 | Engineering Mechanics |
5 | Basic Electrical Engineering |
6 | Environment & Ecology |
7 | Elements of Electronics Engineering |
8 | Introduction to Programming |
Year 2nd OR 3rd and 4th Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Biomathematics & Biostatistics |
2 | Engineering Physiology & Anatomy |
3 | Circuit Theory & Networks |
4 | Analog Electronic Circuits |
5 | Biomechanics |
6 | Biophysical Signals & Systems |
7 | Digital Electronics & Integrated Circuits |
Year 3rd OR 5th and 6th Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Biomedical Instrumentation |
2 | Biosensors & Transducers |
3 | Biomedical Digital Signal Processing |
4 | Medical Imaging Techniques |
5 | Analytical & Diagnostic Equipment's |
6 | Microprocessors & Microcontrollers |
Year 4th OR 7th and 8th Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Therapeutic Equipment's |
2 | Medical Image Processing |
3 | Artificial Organ & Rehabilitation Engineering |
4 | Biological Control Systems |
5 | Design Concept & Maintenance of Biomedical Instruments |
6 | Hospital Engineering & Management |
Established in | 2006 |
University Type | Autonomous Institute |
Recognized by | INI , |
Courses | 17 |
It is a degree in Biotechnology that is often regarded as the most lucrative degree program in the country. Unlike other fields, biotechnology is a fast-paced field, and requires continuous learning and research to advance. As a result, it is one of the most challenging degrees to obtain. However, with a well-rounded education and plenty of opportunities for career progression, biotechnology is a lucrative field for both students and companies.
In a B.Tech. program, you will study the theory and practice of biomedical engineering. This field is one of the fastest-growing fields, with an exponential growth in the population. Those with this degree will have a wide range of job prospects in biomedical technology, which includes all aspects of healthcare. It requires analytical skills and a keen understanding of physical factors, along with a strong interest in human health. The program is a combination of biology and engineering, and focuses on innovative techniques and processes to improve the health of populations.
Many biomedical engineers can expect a highly competitive salary package based on their expertise. While salary packages vary widely, the benefits are considerable. Advanced biomedical engineers can pursue postgraduate studies in the field and earn a doctorate. In the next few years, the growth in this field is projected to be as high as 7%. New medical tools and advanced technologies are fueling the demand for qualified individuals with a broad range of skills.
As a biomedical data analyst, you can use machine learning to fight diseases and create innovative treatments for them. You'll learn to apply artificial intelligence (AI) to the field of medicine, and you'll be able to apply it to drug discovery, vaccine development, and more. In addition, you'll be involved in real world projects, and you'll work alongside faculty on research to develop new methods for overcoming diseases.
The candidates must have completed their 10+2 in PCM/PCB. They need to have a minimum aggregate of 55%marks.
The future scope of B.Tech. in Biological Engineering is tremendous. There are many job opportunities in the biomedical sector. The population is aging rapidly, and this will create a need for highly qualified engineers. These individuals apply engineering concepts to everyday biological problems and design and test various medical instruments. They are also responsible for developing new drugs and devices. These professionals are in high demand for biomedical jobs.
The future scope of B.Tech. in Biological Engineering is vast. The study of biology and technology has enabled many life-saving devices. This is especially true in biomedical engineering. A graduate with an engineering background has a broader perspective of the field than one without a medical background.
Biomedical engineering is one of the fastest-growing fields in the field. The field of biomedical engineering is rapidly growing. The goal of this field is to improve human health through the use of technology and biomedicine. This combination has led to the creation of life-saving medical devices. These ultramodern apparatuses aim to extend human life and decrease disability. They are among the most sought-after professionals.
Biological engineers are the backbone of biomedical technology, and they play an essential role in the development of various medical devices. They have a wealth of skills and knowledge, and they can also develop novel technologies that help improve healthcare. In this field, jobs can be found in the development, testing, and repair of various medical devices. Other options include biomedical instrument designers and developers, clinical technicians, process development scientists, and microbiologist.
Despite the rapid growth of the field, the outlook for career prospects remains good. These individuals will be in demand in a variety of fields, including the biomedical and medical sectors. Biological engineering jobs often require a strong interest in the subject and the ability to continuously upgrade one's knowledge. Students who wish to enter this field will need to be persistent and attentive to changing trends and apply new technologies.
This degree will help students find jobs in a variety of fields, from healthcare to biotechnology. You will also have opportunities to work in research, development, and medicine.
The B.tech in Biological Engineering is a four year degree program. The average fees for the completion of program are between 400K to 1000K, or it may vary from college to college.
Agartala
National Institute of Technology Agartala (NIT Agartala)
10+2 in Related Stream From Recognized Board
4 Years
Under Graduate
Established in | 2006 |
University Type | Autonomous Institute |
Recognized by | INI , |
Courses | 17 |
Year 1st OR 1st and 2nd Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Professional Communication |
2 | Mathematics |
3 | Engineering Chemistry |
4 | Engineering Mechanics |
5 | Basic Electrical Engineering |
6 | Environment & Ecology |
7 | Elements of Electronics Engineering |
8 | Introduction to Programming |
Year 2nd OR 3rd and 4th Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Biomathematics & Biostatistics |
2 | Engineering Physiology & Anatomy |
3 | Circuit Theory & Networks |
4 | Analog Electronic Circuits |
5 | Biomechanics |
6 | Biophysical Signals & Systems |
7 | Digital Electronics & Integrated Circuits |
Year 3rd OR 5th and 6th Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Biomedical Instrumentation |
2 | Biosensors & Transducers |
3 | Biomedical Digital Signal Processing |
4 | Medical Imaging Techniques |
5 | Analytical & Diagnostic Equipment's |
6 | Microprocessors & Microcontrollers |
Year 4th OR 7th and 8th Semester Syllabus of Bachelor of Technology (B.Tech.) in Biological Engineering
S.No | Subjects |
1 | Therapeutic Equipment's |
2 | Medical Image Processing |
3 | Artificial Organ & Rehabilitation Engineering |
4 | Biological Control Systems |
5 | Design Concept & Maintenance of Biomedical Instruments |
6 | Hospital Engineering & Management |
National Institute of Technology Agartala (NIT Agartala)
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