Nuclear Medicine Technology · Delaware
Nuclear Medicine Technology colleges in Delaware
CampusPin lists 6 U.S. colleges in Delaware that offer Nuclear Medicine Technology programs. Compare tuition, acceptance rate, and enrollment in the table below, every figure links back to the institution's official IPEDS data.
Nuclear Medicine Technology trains you to administer small amounts of radioactive material and image how it moves through the body, for people drawn to hands-on imaging and patient care.
Schools in Delaware that offer Nuclear Medicine Technology
Delaware State University
Dover, DE · University · Public
Tuition
$10,314
Acceptance
62%
Enrollment
5,517
Delaware Technical Community College-Terry
Dover, DE · University · Public
Tuition
$4,965
Acceptance
100%
Enrollment
11,012
Goldey-Beacom College
Wilmington, DE · University · Private
Tuition
$13,440
Acceptance
77%
Enrollment
1,006
Strayer University-Delaware
Wilmington, DE · University · Private
Tuition
$13,920
Acceptance
100%
Enrollment
269
University of Delaware
Newark, DE · University · Public
Tuition
$16,080
Acceptance
65%
Enrollment
23,261
Wilmington University
New Castle, DE · University · Private
Tuition
$12,330
Acceptance
100%
Enrollment
13,820
Nuclear Medicine Technology programs in Delaware: by the numbers
A quick comparison of the 6 schools listed above, drawn from each institution's published IPEDS data.
Schools listed
6
Public / private
3 / 3
Universities / 2-year
6 / 0
Cities represented
4
In-state tuition range
$4,965–$16,080
Median in-state tuition
$12,885
Lowest published in-state tuition
Delaware Technical Community College-Terry
$4,965
Most selective
Delaware State University
62% acceptance
Largest by enrollment
University of Delaware
23,261 students
Figures reflect the schools currently listed and each institution's most recent reported data. Verify current tuition and admissions details with the school before applying.
What you'll study in a Nuclear Medicine Technology program
- Nuclear physics and the principles of radioactive decay
- Radiopharmacology and preparation of diagnostic and therapeutic radiopharmaceuticals
- Operation of gamma cameras, SPECT, and PET-CT scanners
- Radiation safety, dosimetry, and regulatory handling of radioactive material
- Patient positioning, history taking, and clinical monitoring during procedures
- Quality-control testing and calibration of imaging instrumentation
- Counting statistics and image reconstruction for nuclear studies
- Cardiac, bone, and oncologic imaging protocols
- Supervised clinical rotations in a hospital nuclear medicine department
Where a Nuclear Medicine Technology degree can lead
- Nuclear Medicine Technologist
- PET Technologist
- Radiopharmacy Technician
- Molecular Imaging Specialist
- Cardiac Nuclear Technologist
- Imaging Quality Specialist
Typical pay: Early-career wages vary by employer, region, and experience (BLS, 2024 nuclear medicine technologists median $97,020).
Nuclear Medicine Technology is a hospital-imaging field built around radioactive tracers. Under a physician's direction, technologists prepare and administer small, measured doses of radiopharmaceuticals, position patients, and operate gamma cameras and PET scanners that capture how those tracers concentrate in organs, bone, the heart, or tumors. The images reveal function rather than just structure, which is what separates this work from plain radiography or CT, where X-rays photograph anatomy from the outside; here the signal comes from inside the patient. Coursework grounds you in nuclear physics, radiation biology, radiopharmacology, and instrumentation, alongside human anatomy, patient assessment, and the math and statistics behind counting radioactive decay. You also learn radiation safety and the regulatory rules for handling, storing, and disposing of radioactive material, plus quality-control checks that confirm the equipment and the doses are accurate before any scan.
The usual entry credential is an associate or bachelor's degree in nuclear medicine technology, and programs pair classroom science with supervised clinical rotations in a hospital imaging department so you practice dose calculation, injection, scanning, and patient monitoring on real cases before graduating. Programmatic accreditation and a passing score on a national certification exam are commonly expected, and many states require a license to practice, so prospective students should verify the current requirements where they intend to work. Unlike a diagnostic medical sonographer, who uses sound waves, or a radiologic technologist, who relies on external X-ray equipment, a nuclear medicine technologist works directly with sealed and unsealed radioactive sources and must track exposure for both patient and self. Graduates work in hospital nuclear medicine and PET imaging units, cardiology and oncology centers, outpatient imaging clinics, and radiopharmacies that compound and distribute the tracers used across a region.
In federal data for the closely related occupation of nuclear medicine technologists, the U.S. Bureau of Labor Statistics reports a 2024 median wage of $97,020 and projects employment to grow about 3% from 2024 to 2034; an associate's degree is the typical entry-level education for that occupation. National figures are occupation-wide medians across all experience levels, not starting wages or graduate outcomes.
Nuclear Medicine Technology in other states
Find more Nuclear Medicine Technology schools
Use CampusPin's filter-first search to narrow 6+ Nuclear Medicine Technology programs in Delaware by tuition, school size, acceptance rate, and campus setting.