B.Sc. in Radiography

Bachelor of Science (B.Sc.) in Radiography Courses Fee, Eligibility and Salary

Bachelor of Science (B.Sc. in Radiography) is a 3- year long course, divided into 6 semesters, with each semester lasting 6 months. Radiography is a medical sub field, dealing in the diagnosis of diseases and ailments related to the internal or hidden parts of the body, with the use of X-Rays.

The average fee charged in India for pursuing this course ranges between INR 2 Lacs and 10 Lacs, depending upon the institute offering the course. The basic minimum eligibility needed for pursuing this course is a 10+2 qualification or equivalent qualification completed from a recognized educational Board.

Fresh graduates of B.Sc. in Radiography may earn anywhere between INR 7,000 to 10,000 monthly, with the salary increasing with increase in experience and skillsets. Such graduates are hired in capacities such as Diagnostic Radiographer, X-Ray Technician, Radiation Protection Specialist, among others.

The course is offered at leading institutes across major cities and States throughout the country, with the admission and selection being based on a relevant entrance examination and performance in the qualifying exam i.e. 10+2.

B.Sc. in Radiography: Course Highlights

The basic course highlights for B.Sc. in Radiography are tabulated below.

Course Level Undergraduate
Duration 3 Years
Examination Type Semester System
Eligibility 10+2 with a minimum of 50% marks in aggregate
Admission Process Counselling after Entrance Examination
Major Recruiting Sectors Government and private hospitals, Defense Forces, Educational Institutes etc.
Course Fee INR 2 to 10 Lacs
Average Starting Salary INR 7,000 to 10,000 (monthly)

Eligibility for B.Sc. in Radiography

The basic eligibility criterion for admission to the course is a 10+2 or similar qualification from any recognized educational Board with Physics, Chemistry and Mathematics as main subjects. Some institutes require a minimum aggregate score of 50% in classes X and XII as an additional criterion of eligibility.

B.Sc. in Radiography: Admission Process

The general admission procedure for most institutes offering this course consists of an entrance examination, and based on performance at all levels, i.e. X, XII, and the entrance exam, admission to the course is given to candidates based on the final cumulative merit.

However, there are many institutes in the country that offer admission to the course based solely on the percentage scored in classes X and XII. There are also a few institutes that conduct an additional round of counselling after the stage of entrance examination, for final selection.

Top Institutes Offering B.SC. in Radiography

As one of the most promising career options in the paramedical field, B.SC. in Radiography is offered at various cities like Delhi, Mumbai, Bangalore etc. and other States throughout the country.

Radiography can be described as the science of taking images of the internal parts of the human body for the purpose of diagnosing diseases and ailments. This includes the use of X-ray, CT scan, MRI, ultrasound etc.

Listed in the table below are some of the institutes in the country offering B.SC. in Radiography, along with their respective locations and the fee charged by each.

B.SC. in Radiography: What is it About?

There is a growing demand for radiographers both in India and abroad, and more compared to the other paramedical professions. The discipline includes the study of subjects and topics such as Clinical Radiotherapy, Radiobiology, Clinical Trials, Palliative care, Clinical Chemotherapy, etc.

B.SC. in Radiography includes the study of both Diagnostic and Therapeutic Radiography which involves treatment of cancers and tumors with the help of radiations.

B.SC. in Radiography: Who Should Apply?

Ideal candidates for the course would be calm, patient, objective and sympathetic in approach towards patients of all age groups, to supplement them with not only medical treatment, but also confidence, tolerance, willpower, strength of mind and purpose.

Good interpersonal skills for communicating with other team members, strong technical and scientific bent- of- mind, attention to detail and quick learning with regard to new skills are preferred qualities in interested candidates.

B.SC. in Radiography: Syllabus and Course Description

A semester- wise breakup of the course is tabulated below.

Generation and Properties of X-Ray
Radiation Hazards and Protection
General Radiography
Communication Skills and Personality Development
Fundamentals of computer science
General Radiography 2
CT-Scan 1
Organizational Behavior
Environmental Science
Doppler and Echography
CT-Scan 2
MRI – 2
Nuclear Medicine and PET Scan
Interventional in Diagnostic Radiology
Anesthesia in Diagnostic Radiology
Human Resource

B.SC. in Radiography: Career Prospects

Successful Radiography graduates interested in higher studies in the discipline may choose to go for M.Sc., Ph.D. or M.Phil. in the subject, upon completion of which, such graduates become eligible for academic posts such as Lecturer in private/ government institutes.

Radiography graduates are lucratively employed in numerous areas such as Basic X-Ray, Computed Tomography, Mammography, Bone Densitometry, Fluoroscopy, Angiography, Interventional Radiography, Cardiovascular Interventional Radiography, among others.

Some of the popular professional avenues open to such graduates are listed below with the corresponding salaries offered for the respective positions.

Physiotherapist They help patients with physical difficulties resulting from illness, injury, disability or aging to improve their movement. 5,000 to 30,000
X-Ray Technician They operate portable x-ray equipment to conduct x-rays in patients’ hospital rooms, work in hospitals or medical center’s radiology departments or emergency rooms. 7,000 to 10,000
Therapy Radiographer They work in the oncology departments of hospitals, using state-of-the-art radiography equipment to treat patients suffering from cancer. 30,000 to 50,000
Radiation Protection Specialist They test x-ray equipment, inspect areas where equipment is used, and evaluate operating procedures to detect and control radiation hazards. 35, 000 to 40, 000
Diagnostic Radiographer They use radiation in the form of x-rays, magnetic resonance imaging, and ultrasound to assess, diagnose, and treat patients for a variety of injuries and diseases. 7,000 to 10,000