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Heating of a current carrying conductor is due to
- a)loss of kinetic energy of moving atoms
- b)loss of kinetic energy of moving electrons
- c)attraction between electrons and atoms
- d)repulsion between electrons and atoms
Correct answer is option 'B'. Can you explain this answer?
Verified Answer
Heating of a current carrying conductor is due toa)loss of kinetic ene...
The reason for why wires heat up when a current flows through them is that a battery converts chemical energy into electric potential energy. ... This thermal energy causes the wire to heat up. Electrical burns occur when you hold on to a wire, and due to heat transfer, some of this thermal energy is transferred to you.
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Heating of a current carrying conductor is due toa)loss of kinetic ene...
Heating of a current carrying conductor is due to the loss of kinetic energy of moving electrons.
When an electric current flows through a conductor, such as a wire, it leads to the transfer of energy in the form of heat. This phenomenon is known as Joule heating, named after the physicist James Prescott Joule who discovered it. The heating of a current carrying conductor is primarily caused by the loss of kinetic energy of moving electrons.
To understand why the loss of kinetic energy of moving electrons causes heating in a conductor, let's consider the following points:
1. Movement of electrons:
When an electric current is passed through a conductor, such as a wire, the free electrons within the conductor start moving in a specific direction. These electrons move randomly within the lattice structure of the conductor, colliding with other electrons and atoms.
2. Electron collisions:
As the electrons move through the conductor, they collide with other electrons and atoms present in the lattice. These collisions result in a transfer of energy between the electrons and the lattice.
3. Resistance:
The resistance of a conductor determines how easily the electrons can flow through it. In a conductor with higher resistance, such as a thin wire, the electrons experience more collisions and encounter greater resistance to their flow.
4. Energy transfer:
During each collision, the electrons lose some of their kinetic energy, which is transferred to the atoms of the conductor. This energy transfer leads to an increase in the vibrational motion of the atoms, causing them to gain kinetic energy.
5. Heat generation:
The increase in kinetic energy of the atoms results in an overall rise in temperature of the conductor. This is because temperature is directly related to the average kinetic energy of the particles within a substance. Hence, the heating of a current carrying conductor is due to the loss of kinetic energy of moving electrons, which is transferred to the atoms of the conductor, increasing their kinetic energy and resulting in a temperature rise.
The heating of a current carrying conductor is primarily caused by the loss of kinetic energy of moving electrons. As the electrons collide with other electrons and atoms in the conductor, they transfer some of their energy to the atoms, increasing their kinetic energy and leading to a rise in temperature. This phenomenon, known as Joule heating, is responsible for the heating effect observed in electrical circuits.
Introduction
When an electric current flows through a conductor, such as a wire, it leads to the transfer of energy in the form of heat. This phenomenon is known as Joule heating, named after the physicist James Prescott Joule who discovered it. The heating of a current carrying conductor is primarily caused by the loss of kinetic energy of moving electrons.
Explanation
To understand why the loss of kinetic energy of moving electrons causes heating in a conductor, let's consider the following points:
1. Movement of electrons:
When an electric current is passed through a conductor, such as a wire, the free electrons within the conductor start moving in a specific direction. These electrons move randomly within the lattice structure of the conductor, colliding with other electrons and atoms.
2. Electron collisions:
As the electrons move through the conductor, they collide with other electrons and atoms present in the lattice. These collisions result in a transfer of energy between the electrons and the lattice.
3. Resistance:
The resistance of a conductor determines how easily the electrons can flow through it. In a conductor with higher resistance, such as a thin wire, the electrons experience more collisions and encounter greater resistance to their flow.
4. Energy transfer:
During each collision, the electrons lose some of their kinetic energy, which is transferred to the atoms of the conductor. This energy transfer leads to an increase in the vibrational motion of the atoms, causing them to gain kinetic energy.
5. Heat generation:
The increase in kinetic energy of the atoms results in an overall rise in temperature of the conductor. This is because temperature is directly related to the average kinetic energy of the particles within a substance. Hence, the heating of a current carrying conductor is due to the loss of kinetic energy of moving electrons, which is transferred to the atoms of the conductor, increasing their kinetic energy and resulting in a temperature rise.
Conclusion
The heating of a current carrying conductor is primarily caused by the loss of kinetic energy of moving electrons. As the electrons collide with other electrons and atoms in the conductor, they transfer some of their energy to the atoms, increasing their kinetic energy and leading to a rise in temperature. This phenomenon, known as Joule heating, is responsible for the heating effect observed in electrical circuits.
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Heating of a current carrying conductor is due toa)loss of kinetic energy of moving atomsb)loss of kinetic energy of moving electronsc)attraction between electrons and atomsd)repulsion between electrons and atomsCorrect answer is option 'B'. Can you explain this answer?
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