Consider following circuit with R₁ = 60 Ω, R₂ = 18 Ω, R₃ = 60 / 10 Ω, R₄ = 18/10 Ω and and ξ=18 V

d. Write Kirchhoff’s potential difference rule for right loop 
e. Calculate currents i₁ , i₂  and i₃ ? 
f. Calculate the potential difference of R₂ ? 
g. Calculate the potential difference of R₃ ? 
h. Calculate the heat dissipation of R₂ resistor 
 i. Cross sections through two long conductors of the same length and material, with square cross
sections of edge lengths are shown below. Conductor Y fits snugly within conductor X, Rank the
resistance of X and Y? 

Transcribed Image Text:

The image depicts a diagram consisting of two shaded squares, labeled X and Y. 1. **Square X**: - The larger square on the left side is labeled X with side length \(2L\). - Inside square X, there is another, smaller square. 2. **Square Y**: - The square on the right side is labeled Y with side length \(L\). - It is placed at a distance \(L\) from the edge of square X. **Explanation**: - The larger square (X) has an outer side length of \(2L\) and contains a concentric smaller square. - There is a distance labeled \(L\) between the smaller square within X and square Y. This diagram can be used to visually represent the relationship and spatial arrangement between two geometric shapes with specified distances and dimensions.

Transcribed Image Text:

The diagram illustrates an electrical circuit consisting of four resistors and a voltage source arranged in a specific configuration. Here's a detailed description: - The circuit forms a loop with nodes labeled as \( a \), \( b \), and \( c \). - A voltage source is connected at the node \( a \), represented by the "+" and "-" signs indicating the positive and negative terminals, respectively. - Four resistors labeled \( R_1 \), \( R_2 \), \( R_3 \), and \( R_4 \) are present in the circuit. - \( R_1 \) is connected between nodes \( a \) and \( b \). - \( R_2 \) is connected between nodes \( b \) and \( c \). - \( R_3 \) connects back from node \( b \) to the negative terminal following clockwise through \( c \). - \( R_4 \) is connected from node \( c \) to \( a \) in parallel with \( R_2 \). - Three currents are denoted by arrows and labeled as \( i_1 \), \( i_2 \), and \( i_3 \): - \( i_1 \) flows through \( R_1 \). - \( i_2 \) flows through \( R_2 \), vertically down from \( b \) to \( c \). - \( i_3 \) flows through \( R_3 \). The layout is useful for analyzing circuits via methods like Kirchhoff’s laws by observing how currents and voltages distribute across different elements.