In clinical and research MRI, hydrogen atoms are most often used to generate a detectable radio-frequency signal that is received by antennas close to the anatomy being examined. Hydrogen …

Sep 16, 2025 · The physics of MRI are complicated and much harder to understand than those underpinning image generation in plain radiography, CT or ultrasound. What follows is a very …

In 1994 I published the first edition of Questions and Answers in Magnetic Resonance Imaging, a collection of notes on MR physics I had distributed to residents and fellows during viewbox …

Comprehensive online course designed to explain in a simple way how magnetic resonance imaging works. Step-by-step, you will develop expertise in basic magnetic resonance imaging …

Aug 27, 2025 · Magnetic resonance imaging (MRI) turns the tiny magnetic moments of hydrogen nuclei into detailed pictures of soft tissues.

The "engineering" approach to learning MRI physics typically follows a more formal set of courses, described at the main Education area of this site. Alternatively, this page contains …

Basic Principle of MRI The hydrogen (1^H) atom inside body possess “spin” In the absence of external magnetic field, the spin directions of all atoms are random and cancel each other.

Apr 2, 2023 · Knowledge of MRI physics is essential to the appropriate interpretation of MRI images. Due to excess demand and also wide availability of MRI, MR studies are frequently …

MRI Physics ★ Basics of magnetic resonance ★ Image formation ★ Signal statistics (SNR) ★ Functional MRI

This helpful MRI technologist resource provides a detailed explanation of every MRI physics equation. From nuclear physics to MRI signal generation, we have it all covered.