Law of Conservation of Charge

Neso Academy

26 Mar 201805:25

Summary

TLDRThe video explains the discovery of the 'amber effect' by ancient Greeks around 1600 BC, where rubbing amber with materials like silk generates an electrical charge. The term 'electricity' comes from the Greek word for amber, 'electron.' It introduces the law of conservation of charge, stating that charge cannot be created or destroyed, only transferred. The mathematical proof for this is derived from the continuity equation, showing how charge flow and change are conserved. Historical figures like William Watson, Benjamin Franklin, and Michael Faraday contributed to developing this law.

Takeaways

📜 Ancient Greeks around 1600 BC discovered that rubbing silk or fur with amber (fossilized resin) creates an electric charge.
🧲 This effect, called the 'amber effect,' allows amber to attract small objects like thread due to charge transfer.
⚡ The word 'electron' comes from the Greek word for amber, and this is where the term 'electricity' originates.
🔄 According to the law of conservation of charge, charge cannot be created or destroyed, only transferred between objects.
🧮 The net amount of charge in the universe is always conserved, represented mathematically as Q net = Q plus - Q minus.
📐 The continuity equation in electromagnetic theory provides mathematical proof for the law of conservation of charge.
🔍 The continuity equation is expressed as nabla dot J = -d(Rho V)/dt, where J is current density and Rho V is volume charge density.
🌍 Divergence of J represents the flow of charge through a small volume, where a positive divergence indicates charge flowing out.
🧲 The law of conservation of charge was first proposed by William Watson in 1746, further supported by Benjamin Franklin and Michael Faraday.
🧪 The continuity equation proves that the charge leaving a differential volume is equal to the decrease in charge within that volume.

Q & A

Who discovered the phenomenon related to amber and when?
-An ancient Greek philosopher, Halley's, around 1600 BC, discovered that when silk or fur is rubbed with amber, it becomes electrified or charged.
What is the amber effect and why does it happen?
-The amber effect refers to the ability of amber, when rubbed with silk or fur, to attract small pieces of thread. This happens due to the transfer of charge between silk and amber.
How did the word 'electricity' originate?
-The word 'electricity' comes from the Greek word for amber, 'electron,' as the ancient Greeks noticed amber's ability to attract small objects when rubbed.
What does the law of conservation of charge state?
-The law of conservation of charge states that charge can neither be created nor destroyed. It can only be transferred from one body to another, and the net charge in the universe is always conserved.
How is net charge calculated in the universe according to the law of conservation of charge?
-Net charge (Q_net) is calculated by subtracting the amount of negative charge (Q_minus) from the amount of positive charge (Q_plus). This net charge remains conserved in the universe.
What is the equation of continuity and how does it relate to the conservation of charge?
-The equation of continuity is written as ∇·J = -∂ρ_v/∂t, where ∇·J represents the divergence of current density (J), and ρ_v is the volume charge density. This equation helps prove the conservation of charge by equating the rate of outflow of charge from a volume to the rate of decrease in charge within that volume.
What is the significance of divergence in the context of charge flow?
-Divergence of current density (J) measures the flow of charge through a small volume. A positive divergence indicates that charge is flowing out of the differential volume.
What does the right-hand side of the continuity equation signify?
-The right-hand side of the continuity equation, -∂ρ_v/∂t, signifies the rate of decrease in charge density, or how the charge within a differential volume decreases over time.
Who first proposed the law of conservation of charge, and who provided its final proof?
-The law of conservation of charge was first proposed by William Watson in 1746, then by Benjamin Franklin in 1747, and its final proof was provided by Michael Faraday in 1843.
What are two key points to remember about the law of conservation of charge?
-First, charge can neither be created nor destroyed. Second, the law of conservation of charge can be proven using the continuity equation.