S-block elements are silvery white, lustrous, highly malleable, having low density, low boiling and melting points, good conductors of heat and electricity . They are highly reactive metals and their reactivity increases down the group.
A compound's physical properties are different from those of the elements it is made of because compounds have unique properties that arise from the interactions of the elements within them. For example, the melting point, boiling point, and density of a compound can be different from those of the individual elements in it.
The elements of a compound combine to form new substances with properties that are different from the individual elements. This is due to the chemical bonds that form between the elements, resulting in unique physical and chemical characteristics for the compound. The properties of a compound are determined by the type of elements present, as well as the arrangement and strength of the chemical bonds within the compound.
Compounds of different elements can have different properties because their properties are determined by the arrangement and interactions of the atoms within the compound. The types and numbers of elements present in a compound will influence its physical and chemical properties.
Physical properties such as density, melting point, boiling point, and color can help identify elements based on their unique values. Chemical properties like reactivity with acids, bases, and other elements can provide key information on the behavior of elements, aiding in their identification. Combined, these properties form a unique fingerprint for each element.
When elements combine to form compounds, the chemical properties change because new chemical bonds are formed between the elements. This can result in new properties for the compound compared to the individual elements. The physical properties may also change, such as its melting point, boiling point, and appearance, due to the arrangement of the atoms and molecules in the compound.
These elements have similar chemical and physical properties.
The answer to, ' when repeating chemical and physical properties of elements change periodically with the elements' atomic numbers it is called the?'Periodic law, is the answer. PERIODIC LAW !orPeriodicity of the chemical elements properties.
A compound's physical properties are different from those of the elements it is made of because compounds have unique properties that arise from the interactions of the elements within them. For example, the melting point, boiling point, and density of a compound can be different from those of the individual elements in it.
elements in the same group
The answer to, ' when repeating chemical and physical properties of elements change periodically with the elements' atomic numbers it is called the?'Periodic law, is the answer. PERIODIC LAW !orPeriodicity of the chemical elements properties.
The answer to, ' when repeating chemical and physical properties of elements change periodically with the elements' atomic numbers it is called the?'Periodic law, is the answer. PERIODIC LAW !orPeriodicity of the chemical elements properties.
Yes, each element has specific physical properties.
Except noble gases the groups of elements in periodic table have the similar chemical properties but not the physical.
No, elements in the periodic table are arranged by their atomic number and electron configuration, not their physical properties. However, elements in the same group tend to have similar physical properties due to their similar electron configurations.
it is the ~group~ of the periodic table of elements
The chemical and physical properties of a compound are different than those of the elements from which it is formed.
No, physical properties within a group are more alike than physical properties within a period. This is because elements in the same group have similar electron configurations, leading to similar chemical and physical properties, while elements in the same period have different numbers of electron shells and therefore different properties.