Chemical reactivity of elements in periods decreases on moving from the left towards right. The oxidation state of halogens is -1. The trends in the chemical reactivity of elements are similar.
The rate at which a chemical substance or an element undergoes a chemical reaction is known as reactivity. The electrons between the elements are shared, or the elements lose or gain the electrons. The higher the reactivity of the element, the easier it is to combine. Hence the electronegativity and the ionisation energy determine a chemical reaction. In a period, the chemical reactivity decreases on moving towards the right, whereas in a group, chemical reactivity increases on moving downwards. Hence the elements on the left side in the downwards direction are the highly reactive elements. The elements have basic hydroxides. The gas elements do not gain or lose their electrons because the electronic configuration is filled. The periodic trends and chemical reactivities of elements are shared below.
Periodic trends refer to the patterns of the properties of the chemical elements. The trends of the elements in a periodic table depend on various factors like electronegativity, ionisation energy, electron affinity, atomic radii, metallic character, and chemical reactivity. Some periodic trends and chemical reactivity in the periodic table are as follows –
The state of oxidation of a specific element refers to the degree to which an atom can lose or gain its electrons. The state can either be positive, zero, or negative. The term was developed by Antoine Lavoisier. Oxidation and reduction are the two reactions that help in, formally transferring electrons. Reduction refers to a reaction where oxidation decreases. The oxidation state is as high as +8 in certain elements, while it is as low as -4. A pure element will always have an oxidation state of zero. It is also very important to obtain a result of zero upon adding the oxidation states of all atoms of a neutral molecule. The pure non-ionized elements in all their phases exist in zero. To determine the oxidation state of elements, the group numbers can be used on the periodic table. The most common oxidation states of elements can be -3, +3, or +5. To calculate the oxidation state of certain elements, the formula to be used is ‘charge of ions is equal to the overall oxidation state’.
Group 15 of the periodic table consists of elements like nitrogen, phosphorus, arsenic, antimony, bismuth, and moscovium. The family of these elements is known as the nitrogen family. The lighter elements are placed on the top while the heavier ones are present at the bottom. The electronic configuration is ns2np3. Hence the elements of the group can lose five electrons, or they can gain three electrons. These elements are different from one another completely, yet the general chemical behaviour has certain similarities. The trends in chemical reactivity of group 15 elements are as follows –
Periodic trends refer to the patterns of the properties of the chemical elements. The trends of the elements in a periodic table depend on various factors. The state of oxidation of a specific element refers to the degree to which an atom can lose or gain its electrons. In a period, the chemical reactivity decreases on moving towards the right, whereas in a group, reactivity increases on moving downwards. Group 15 of the periodic table is the nitrogen family. When moved in the downward direction, there is a decrease in the stability of hydrides. When moved in the downward direction, acidic nature tends to decrease. Reaction with metals results in the formation of binary compounds. The periodic trends and chemical reactivity of elements depend on various factors.