Infrared radiation is a type of electromagnetic radiation with longer wavelengths than visible light. It is invisible to the human eye, but we can feel it as heat. Infrared radiation is commonly used in various applications, including remote controls, thermal imaging, and in chemical analysis.

Properties of Infrared Radiation

Wavelength: Infrared radiation has wavelengths longer than those of visible light, typically ranging from about 700 nanometers to 1 millimeter.
Heat Sensation: Although we cannot see infrared radiation, we can feel it as heat. This is because infrared radiation causes the molecules in objects to vibrate, producing thermal energy.
Interaction with Matter: Infrared radiation interacts with matter by causing the molecules to vibrate and rotate, leading to changes in the energy levels of the molecules.

Applications of Infrared Radiation

Thermal Imaging: Infrared cameras are used to capture the heat emitted by objects and create thermal images, which are valuable in various fields such as building inspections, law enforcement, and medical diagnostics.
Remote Controls: Many electronic devices, including televisions and air conditioners, use infrared radiation for wireless communication with remote controls.
Chemical Analysis: Infrared spectroscopy is a technique used to identify and analyze molecules based on their interaction with infrared radiation. This is widely used in chemistry and biochemistry for identifying functional groups in molecules.

Study Guide

When studying infrared radiation, it's important to understand its properties, applications, and its role in various scientific techniques. Here are some key points to focus on:

Understanding the electromagnetic spectrum and the position of infrared radiation within it.
Exploring how infrared radiation interacts with matter and the effects it has on the energy levels of molecules.
Learning about the various applications of infrared radiation, including thermal imaging, remote controls, and chemical analysis.
Studying the principles and techniques of infrared spectroscopy and its use in identifying functional groups in molecules.

Additionally, practicing with sample problems and reviewing real-world examples of infrared technology can help reinforce the concepts and applications of this topic.

◂Chemistry Worksheets and Study Guides High School. Gases

The resources above cover the following skills:

Physical Science

Energy - A. Energy is involved in all physical and chemical processes. It is conserved, and can be transformed from one form to another and into work. At the atomic and nuclear levels energy is not continuous but exists in discrete amounts. Energy and mass are related through Einstein's equation E=mc 2 . B. The properties of atomic nuclei are responsible for energy-related phenomena such as radioactivity, fission and fusion. C. Changes in entropy and energy that accompany chemical reactions influence reaction paths. Chemical reactions result in the release or absorption of energy. D. The theory of electromagnetism explains that electricity and magnetism are closely related. Electric charges are the source of electric fields. Moving charges generate magnetic fields. E. Waves are the propagation of a disturbance. They transport energy and momentum but do not transport matter.

Relate temperature to the average molecular kinetic energy.