CHEMISTRY GLOSSARY

inertia    →   inercija

Inertia is an expression for the tendency of all bodies to resist motion, or to continue in motion if already moving. If a body undergoes linear motion (translation), inertia corresponds to the mass of the body. In order to express inertia of a rotating body, the so-called rotational inertia is defined as suitable physical quantity. A bowling ball has more inertia than a tennis ball, due to its higher mass.

inertial reference frames    →   inercijski referentni sustavi

When two frames of reference are moving relative to each other at constant velocity, they are said to be inertial reference frames. The observers from two such inertial frames measure, in general, different velocities of a moving particle. On the other hand, they measure the same acceleration for the particle. The laws of physics must have the same form in all inertial reference frames (the principle of invariance).

rotational inertia    →   moment tromosti

Rotational inertia of a body is defined as

for a system of discrete particles (each of mass m_i), and as

for a body with continuously distributed mass (dm is the mass element). r_i and r represent the perpendicular distance from the axis of rotation to the mass element of the body.

SI unit for rotational inertia is kg m².

aerosol    →   aerosol

Aerosols are colloidal dispersions of liquid or solid particles in a gas, as in a mist or smoke. The commonly used aerosol sprays contain an inert propellant liquefied under pressure. The pressure of the gas causes the mixture to be released as a fine spray (aerosol) or foam (aerogel) when a valve is opened.

angular momentum    →   moment količine gibanja

Angular momentum is a physical quantity defined for rotating motion (in analogy to momentum that is defined for linear motion). If a body rotates around a specified axis, its angular momentum equals

Where I is the rotational inertia concerning that axis and ω is the angular velocity of the body.

Angular momentum can also be defined for a point-like body concerning a specified origin (in that case, it is not necessary that the point-like body undergoes circular motion). Rotational inertia of the point-like body, concerning that origin equals:

Where m is the mass of the body and r is its distance from the origin.

anode    →   anoda

Anode is the electrode at which oxidation occurs in a cell. Anions migrate to the anode.

Anode is a positive electrode on which reaction of oxidation is developed (loss of electrons).

argon    →   argon

Argon was discovered by Lord Raleigh and Sir William Ramsay (Scotland) in 1894. The origin of the name comes from the Greek word argos meaning inactive. It is colourless and odourless noble gas. Chemically inert. It is the third most abundant element in the earth’s atmosphere and makes up about 1 %. Argon is continuously released into the air by decay of radioactive potassium-40. Pure form is obtained from fractional distillation of liquid air. Used in lighting products. It is often used in filling incandescent light bulbs. Some is mixed with krypton in fluorescent lamps. Crystals in the semiconductor industry are grown in argon atmospheres.

asbestos    →   azbest

Asbestos is any one of a group of fibrous amphibole minerals (from the silicate group). It has widespread commercial uses because of its resistance to heat, chemical inertness., and high electrical resistance. Since 1970s short asbestos fibres have been recognized as a cause of asbestosis, a serious lung disorder, and mesothelioma, a fatal form of lung cancer. These concerns have limited its use and imposed many safety procedures when it is used.

electromotive force    →   elektromotorna sila

Electromotive force (e.m.f. or E_MF) is the difference in electric potential that exists between two dissimilar electrodes immersed in the same electrolyte or otherwise connected by ionic conductors.

Faradaic reaction    →   Faradejska reakcija

Faradaic reaction is a heterogeneous charge-transfer reaction occurring at the surface of an electrode.