Does the process require energy or produce energy?
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Solution and Explanation
The process of electron drift in a conductor, driven by an electric field, involves both energy consumption and the potential to produce energy, depending on the context. Let's break it down:
1. Energy Required for Electron Drift:
When an electric field is applied across a conductor, the free electrons in the conductor experience a force that causes them to accelerate in the direction opposite to the electric field (because electrons are negatively charged). This acceleration of electrons requires energy.
- The source of this energy is typically the power supply (such as a battery or AC source), which provides the electric potential difference (voltage) that creates the electric field within the conductor.
- As the electrons drift, they collide with the atoms and other free electrons in the conductor, which causes them to lose some of their kinetic energy in the form of heat. This is why conductors heat up when an electric current flows through them (this effect is called Joule heating).
- Thus, energy is supplied by the external voltage source to accelerate the electrons and overcome resistance in the conductor.
2. Energy Produced by the Process:
While the electrons themselves are carrying energy, the process of electron drift doesn't "produce" energy in the conventional sense. Instead, the energy from the external power supply is converted into heat due to the collisions between the electrons and atoms in the conductor. The energy dissipated as heat is the result of the work done by the electric field on the electrons.
- This heat can be considered as a form of energy "produced" by the process, but it is not energy created out of nothing — it is energy transferred from the power supply to the conductor.
3. Conclusion:
The process of electron drift in a conductor requires energy to be supplied by an external voltage source to create the electric field that drives the electrons. While this energy is used to accelerate the electrons, it is ultimately converted into heat due to resistance in the conductor, which means the process primarily consumes energy, rather than producing it.
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On $31^{\text {st }}$ March, 2024, following is the Balance Sheet of Bhavik Limited :
Bhavik Ltd.
Balance Sheet as at $31^{\text {st }}$ March 2024
I. Equity and Liabilities :
Particulars Note No. $31-3-2024$ (₹) $31-3-2023$ (₹) 1. Shareholders funds (a) Share Capital 12,00,000 10,00,000 (b) Reserves and Surplus 1 4,00,000 3,00,000 2. Non-current liabilities Long-term borrowings 2 6,00,000 10,00,000 3. Current Liabilities 5,00,000 1,00,000 (a) Trade Payables 3 3,00,000 4,00,000 (b) Short-term provisions Total 30,00,000 28,00,000 II. Assets :
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