Table of Contents
- 1 What do you understand by magnetic property?
- 2 What is magnetic property of an atom?
- 3 What is the correct sequence of bond order?
- 4 What kind of property is magnetic property?
- 5 Why are magnetic properties important?
- 6 What is the formula of bond order?
- 7 What is the bond order of no+ with antibonding electrons?
- 8 What is the difference between bonding orbital and molecular orbital?
What do you understand by magnetic property?
Besides the very strong attraction forces, these solids can actually be magnetized permanently. This means that even when the external magnetic fields are removed the solids will retain their magnetic properties. It is a widely believed theory that the ferromagnetic structures have certain special characteristics.
What is magnetic property of an atom?
In an atom, magnetism arises from the spin and orbital momentum of its electrons. ‘Magnetic anisotropy’ describes how an atom’s magnetic properties depend on the orientation of the electrons’ orbits relative to the structure of a material. It also provides directionality and stability to magnetization.
What are magnetic properties of molecules?
The permanent magnetic moment of a molecule is due to the presence of unpaired electron spins in that molecule. The magnitude of the magnetic moment, m, of a single electron is given by the relationship below, where s is the spin angular momentum.
What is the correct sequence of bond order?
O2+>O2−>O2.
What kind of property is magnetic property?
Magnets have certain important properties. They are: Attractive Property – Magnet attracts ferromagnetic materials like iron, cobalt, and nickel. Repulsive Properties – Like magnetic poles repel each other and unlike magnetic poles attract each other.
What are magnetic properties of 12th solids?
Magnetic Properties of Solids in Class 12 The magnetic property of solids is only one aspect of electromagnetism. The small charge of an electron generates a magnetic field along its axis. The magnetic moment is produced due to the angular momentum of the spinning motion of the electron.
Why are magnetic properties important?
Magnetic properties are important in many electronic applications such as radiation shielding, sensors, and induction heating.
What is the formula of bond order?
In molecular orbital theory, bond order is also defined as half of the difference between the number of bonding and antibonding electrons. For a straightforward answer: use this formula: Bond order = [(Number of electrons in bonding molecules) – (Number of electrons in antibonding molecules)]/2.
What is the bond order formula in chemistry?
The Bond Order Formula can be defined as half of the difference between the number of electrons in bonding orbitals and antibonding orbitals. a = Number of electrons in bonding molecular orbitals. b = Number of electrons in antibonding molecular orbitals.
What is the bond order of no+ with antibonding electrons?
b = Number of electrons in antibonding molecular orbitals. Bond order of NO+ is 3. The number of antibonding electrons are 5. Was this answer helpful? Thank you.
What is the difference between bonding orbital and molecular orbital?
In molecular orbital theory, we describe the π orbital by this same shape, and a π bond exists when this orbital contains electrons. Electrons in this orbital interact with both nuclei and help hold the two atoms together, making it a bonding orbital.
How to predict the bond order of diatomic species without Mot?
Bond-Order of Diatomic Species without MOT Bond-order usually predicted from the Molecular Orbital Theory. Molecular Orbital Theory (M.O.T.) was first proposed by Friedrich Hund and Robert Mulliken in 1933.