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Saturated and Unsaturated Vapour Pressure

Saturated and Unsaturated Vapour Pressure What is a saturated solution? If in a water sugar solution, the amount of dissolved sugar is equal to the maximum amount that a given amount of water can dissolve at a certain temperature, then that solution is called a saturated solution. What is an unsaturated solution? If in a water sugar solution, the amount of dissolved sugar is less than that amount that a given amount of water can dissolve at a certain temperature, then that solution is called a saturated solution. What is saturated vapour? At a certain temperature in an enclosed space, if the amount of vapour present is equal to the maximum vapour capacity of that space, then that vapour is called saturated vapour. What is unsaturated vapour? At a certain temperature in an enclosed space, if the amount of vapour present is less than the maximum vapour capacity of that space, then that vapour is called unsaturated vapour. What is vapour pressure? Vapour enclosed in a container behaves

Development of physics

Modern civilization is the product of science. Behind this development of science, there are untiring efforts, discoveries, and innovations of scientists. Science has no national or political boundaries. The growth, development, and benefit of science are enjoyed by all people of all nations. From ancient times scientists have been contributing to the development of science. In this lesson, we will try to mention the contributions of physicists. 

Thales (624-569 B.C) is famous for his predictions regarding solar eclipse.

He also knew about the magnetic properties of the loadstone. Pythagoras (527-497 B.C) is a memorable name in the history of science. Besides the invention of several Geometric theorems, he made a longer-lasting contribution through his works on vibrating string. He was given several Geometric theorems.

Moreover, he made long-lasting contributions through his works on vibrating strings. The present scales of musical instruments and music are partially the contributions of his research on the vibration of strings.


Greek philosopher Democritus (460-370 B.C) gave the idea that matter consists of indivisible units. He called it an atom. His concept about the atom was significant even though it is completely different from the present concept. Greek scientist Archimedes (287-212 B.C) discovered the principles of the lever and the law of upward force acting on bodies immersed in liquid and was able to determine the impurity in metals. He also knew the technique of setting fire by concentrating sun rays with the help of spherical mirrors.

After Archimedes, scientific discoveries advanced rather slowly for a few centuries. In fact, scientific discoveries did not revive in Europe before the thirteenth century. During this time West European civilization particularly adopted the trends of the Byzantine and Muslim civilization in the pursuit of knowledge. The Arabs were also particularly advanced in Science, Mathematics, Astronomy, Chemistry, and Medical Science. During this time the contribution of Ibne-Al-Haithan (965-1039 A.D) and Al-Hazen (965-1038 A.D) may be particularly mentioned for their theories of light, a branch of physics.

Ptolemy (127-151 A.D) and other earlier scientists believed that the eyes themselves send light rays to see an object. Al-Hazen contradicted this view and asserted that we see an object because light rays from the object fall on our eyes. Experiments with magnifying glass brought him near to the modern theory of convex lens. Al-Masudi (896-956 A.D) wrote an encyclopedia on the History of Nature in which the name of Windmill was first mentioned. At present many countries of the world produce electricity by using this windmill.

Roger Bacon (1214-1294 A.D) was the pioneer of experimental scientific methods. According to him, all scientific truths should be verified through observations and experiments. At the end of the fifteenth century, Leonardo de Vinci (1452-1519 A.D) made a model of the airplane by observing the act of flying birds. Although he was a painter, he had considerable knowledge of mechanics. As a result, he was able to invent efficiently some common instruments. 

During the Galileo-Newtonian age and even before that time a few very important scientists, although small in number were born. They contributed a lot to the advancement of science too. Dr. Gilbert (1540-1603 A.D) is unforgettable for his extensive research and theory on magnetism. Snell (1591- 1626 A.D) of Germany discovered the laws of refraction of light. Huygen (1626-1695 A.D) reviewed the motion of a pendulum, developed the mechanical device of clocks, and invented the wave theory of light. Robert Hook (1635-1703 A.D) strove to find out the elastic properties of bodies.

Robert Boyle (1627-1691 A.D) conducted experiments to find out the properties of gases at different pressures. Von Guerick (1602-1686 A.D) invented the air pump. Romer (1644-1710 A.D) measured the velocity of light by studying the eclipse of a satellite of Jupiter, but none of his contemporary scientists believed that the velocity of light could be so high.

Kepler (1571-1630 A.D) presented three laws for a general mathematical explanation of the concept of the solar-centered theory of Copernicus. Kepler’s success was based on his assumption of an elliptical orbit as opposed to the conventional circular orbit. He verified the validity of his mathematical laws about the orbits of the planets with the data collected through observation by his teacher Tychobrahe (1546-1601 A.D). The inception of the modern scientific method was made by a famous Italian scientist Galileo (1564-1642 A.D). He showed for the first time that the observations, experimentations, and definitions of physical quantities systematically and the determination of relations among them are the basic foundation of scientific works.

Galileo introduced the scientific trends of developing mathematical theory and verifying its authenticity through experiments. Later, Newton (1642-1727 A.D) gave it a complete shape. Galileo defined displacement, motion, acceleration, time, etc., and determined relations among them. Consequently, he discovered the laws of falling bodies and established the foundation of statics. Newton by his versatile genius discovered mechanics and the three famous laws of mechanics and the law of universal gravitation. He also made contributions to optics, heat, and sound. He invented calculus, a new branch of mathematics.

The discovery and inventions of the eighteenth and nineteenth-century paved the way for Europe to the industrial revolution. The steam engine of James Watt (1736-1819 A.D) played a vital role in the industrial revolution. Hans Christian Oersted (1777-1851 A.D) demonstrated the magnetic effect of current. This discovery led Michael Faraday (1791-1867 A.D), Henry (1797-1879 A.D), and Lenz (1804-1865 A.D) towards discovering the fact that the magnetic effect produces an electric current. In fact, this was a discovery of the process of converting mechanical energy into electrical energy.

In 1864 James Clark Maxwell (1831-1879 A.D) demonstrated that light is one kind of electromagnetic wave. He established the electromagnetic theory by combining electric and magnetic fields. A similar kind of radiation was also discovered and produced in 1888 by Heinrich Hertz (1857-1894 A.D). Using the same kind of waves in 1896, Marconi (1874-1937 A.D) discovered the method of sending a signal through ″Morse code″ too far off distance. Before him, Sir Jagadish Chandra Basu (1858-1937 A.D) was able to send energy from one place to another through electromagnetic waves. In this way, radio communication was developed. By the end of the nineteenth century Roentgen (1845-1923 A.D) discovered x-rays and Becquerel (1852-1908 A.D) discovered the radioactivity of uranium.

In the twentieth century, surprising advancements took place in the field of physics. Max Planck (1858-1947 A.D) discovered the quantum theory of radiation. Albert Einstein (1879-1955 A.D) invented a theory of relativity. These two theories not only explained the previous experimental result but also made some predictions that were experimentally verified. Ernest Rutherford’s (1871-1937 A.D) nuclear theory regarding atoms and Neill Bohr’s (1885-1962 A.D) concept of electron layers in the hydrogen atoms were the very important step of atomic physics.

The next important discovery was made in 1938. At this time Otto Hann (1879-1968 A.D) and Stresemann (1902-1980 A.D) found out that the nucleus was fissionable. Due to fission, a nucleus of a large mass number splits up into two nuclei of an approximately equal mass number, and a part of its mass is converted into energy as a result of which atom bomb and nuclear reactor are invented.

The amount of energy we are getting at present from the nucleus is huge compared to the energy obtained from all the sources in the past. Day by day nuclear energy is becoming the principal source of energy. In this century quantum theory of relativity etc. was developed in the field of theoretical physics. Satyendranath Basu (1894-1974 A.D) professor of physics at, University of Dhaka made an important contribution to theoretical physics. He demonstrated a comparatively correct form of Planck’s quantum theory. His theory is known as Bose-Einstein’s statistics. In recognition of his contribution, one kind of elementary particle is named after him and is called Boson.

Three Nobel laureate physicists Prof. Abdus Salam (1926-1996 A.D) of Pakistan, Sheldon Glasso (1932-), and Stevan Wienberg (1933-) of the United States made an outstanding contribution by discovering weak electric force in unifying the elementary particles in a unified field theory. Prior to that Nobel laureate physicist, Chandra Shekhar Ramon (1888-1970 A.D) discovered Ramon effect.

Physics has made a significant contribution to the progress of medical science in the twentieth century. By using radioisotopes along with the discovery of numerous equipment physics has contributed to medical science. Another advancement of physics in the twentieth century is the exploration of space. The contribution of physics lies in landing a human footprint on the moon along with the staying of months after months in a space station and exploration on Mars.

The artificial satellite has contributed to forecasting weather and made communication easy. Moreover, electronics has already brought about a revolution in our daily life and changed our lifestyles. Nowadays radio, television, digital camera, mobile phone, i-pad, and computer are used almost in every house. Various electronic instruments have developed human workability to a great extent. In the nineteenth-century physics played a vital role in the advancement of medical science. The outstanding contribution of physics in the field of medical science lies in inventing different instruments along with radioisotopes for the prevention of diseases. Another advancement of physics in the twentieth century is the exploration of space.

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