Chapter 6
Changes Around Us
Changes occur all around us. When one or more properties of a thing become different, we say that it has changed, or a change has taken place in it.
What is change?
A change is referred to as a difference that occurs in the properties of the substances such as shape, size, colour, state and internal structure etc. For example, a burning candle melts its wax, and this melting wax evaporates to produce a black substance called soot and carbon dioxide.
The most noticeable thing is that changes can occur either instantly or take a longer time, and, they can be temporary or permanent.
Natural changes: The changes occurred by nature are called natural changes. Some common examples are the rotation of the earth on its axis causing day and night, the revolution of the earth around the sun causing different seasons and growing babies into adults.
Man-made changes: The changes that are influenced by human efforts are called man-made changes. Some common examples are the manufacturing of vehicles, making food products and building houses.
The changes can be broadly differentiated based on the properties of the substances: physical, chemical, reversible and irreversible changes.
Types of Changes
Reversible Changes
Changes which are easily reversed to obtain the original form by removing the cause of change are called reversible changes. Melting, boiling, evaporating, and condensing are examples of reversible changes.
Examples:
Pulling of a rubber band
Folding of paper
Melting and boiling
When a solid turns into a liquid, it is called melting. When a liquid becomes a gas, it is called boiling. Melting and boiling are examples of a reversible change.
Example: If an ice cube melts, the water can be frozen back to ice again by lowering the temperature. Steam from evaporated boiling water will condense back to water when the temperature falls.
Evaporation and Condensation
Evaporation is the process of a substance in the liquid form transitioning into the gas phase. Condensation is when a gas returns to the liquid form.
Example: With the heat of the Sun, water in the sea evaporates and turns into water vapour. Water vapour in the air gets cold and changes back into liquid, forming clouds. This occurs because of condensation.
Expansion
Expansion on heating is a reversible change. On heating, the size of the object generally increases. However, this change is a reversible change.
Example: Fixing of an iron rim to the wooden wheel of a cart
Non-reversible Changes
Changes in a substance which cannot be converted back to its original form are called non-reversible changes.
Example:
Rusting of iron
Physical Changes:
The changes in the physical properties of the substances occur, but no change occurs in their chemical composition. Such changes are called physical changes. The following characteristics of physical changes are:
These changes only affect the physical properties of the substances such as temperature, shape, size, odour, position and texture.
The result cannot lead to the formation of the new substance.
No change in the internal structure of the substances occurred.
These changes are temporary.
Some examples of physical changes have physical processes such as:
Evaporation: The water changes into water vapours.
Melting: Ice changes into water.
Freezing: The water changes into solid.
All these processes have state conversions that occurred due to the changes in the temperature, but no chemical composition is changed.
Physical changes are mostly reversible but not all physical changes are reversible such as breaking glass, tearing of paper and bursting of balloons. Some methods that we apply in our daily life like heating, cooling, cutting and pushing or pulling, etc.
Chemical Changes
The changes that occur in the chemical composition of the substances that lead to the formation of new substances are called chemical changes. A chemical change can take place when two or more substances chemically react together. In a chemical change, the substances that are combined are chemically called reactants, whereas the newly formed substances are called products. Some examples are:
The burning of paper turns into ash. This newly formed product ash has different properties than the paper.
The combination of the atoms or molecules of different elements together formed a new compound. For example, water is formed, when two atoms of hydrogen are linked with one atom of oxygen in the presence of heat.
Fermentation is also a chemical change. For example, yeast and bacteria convert sugar into alcohol and carbon dioxide. This process is called fermentation.
The following characteristics of chemical changes are:
The newly formed substances have different properties and compositions than the reactants.
These changes are considered as irreversible.
The absorption or emission of heat are both involved in chemical changes.
Common Causes of Physical and Chemical Changes
Mixing of two or more substances: The mixing of two or more substances leads to physical change. For example, the occurrence of evaporation recovered the dissolved salt in the water. The mixing of two or more substances also leads to the chemical change. For example, the reaction between lemon juice and baking soda causes hissing sounds and bubbles, forming a substance with completely different properties.
chemical reaction: It is a cause of chemical change. For example, rusting of iron takes place due to corrosion (a rough black coating on the iron).
Heating and cooling: The heating and cooling effects cause changes in the physical states of matter. For example, the physical processes depend on heating and cooling factors.
Application of force: The force of air changes the shape and size. For example, a balloon inflated due to the force of air.
Effects of Heating and Cooling
The effects of heating and cooling can lead to various changes. For example, the heating of iron expands it while it contracts when gets cooled.
Applications of contraction and expansion
The expansion and contraction are caused due to the effects of various parameters such as temperature and force, etc. The following applications of contraction and extraction are:
The wooden wheel of a cart has a metal rim because it helps the cartwheel to move smoothly. On heating the metal rim, it expands. Afterward, the heated metal rim expels out of the cartwheel that is later placed over the cartwheel and poured with the cold
water which makes it contracts and fitted in the cartwheel
Cooling and heating of metal rim.
The small gaps between two adjacent sections of rails on the railway track are also an example of the heating and cooling effect
Small gaps between rails on the railway track.
One of the excellent examples of heating and the cooling effect is a clinical thermometer that contains liquid mercury for measuring the temperature of the human body. On cooling the bulb of the thermometer, the temperature drops down while putting it under the mouth of the human can raise the temperature significantly
Table of Contents
- Chapter 1 Food: Where Does It Come From?
- chapter 2 Components Of Food Food: Where Does It Come From?
- chapter 3 Fibre To Fabric
- chapter 4 Sorting Materials And Groups
- chapter 5 Separation Of Substances
- chapter 6 Changes Around Us
- chapter 7 Getting To Know Plants
- chapter 8 Body Movement
- chapter 9 The Living Organisms And Their Surroundings
- chapter 10 Motion And Measurement Of Distances
- chapter 11 Light, Shadows And Reflections
- chapter 12 Electricity And Circuits
- chapter 13 Fun With Magnets
- chapter 14 Water
- chapter 15 Air Around Us