Respuesta :
Answer:
Explained
Explanation:
Resistance R in a current flow through an object is given by
[tex]R= \frac{\rho L}{A}[/tex]
ρ = resistivity of the material
L= length of the object
A= area of cross section
clearly resistance is directly dependent on length of the object.This means greater the length larger will be resistance to current.
thermal resistance R_th is given by
[tex]R_{th} = \frac{L}{KA}[/tex]
L= length of the object
A= area of cross section
K = Conductivity of the material
thermal resistance is also is directly dependent on length of the object.This means greater the length larger will be resistance to current.
Answer:
[tex]\dot Q\equiv I[/tex]
[tex]R\equiv \frac{dx}{k.A}[/tex]
[tex]\Delta T\equiv V[/tex]
[tex]\dot Q=\frac{\Delta T}{(\frac{dx}{k.A} )}[/tex]
[tex]I=\frac{V}{R}[/tex]
Explanation:
For heat transfer through a window pane:
- Let the temperature difference across the window pane be, [tex]\Delta T[/tex] this temperature difference is the driving cause for the flow of heat, likewise we have "V" the potential difference as the driving cause for the flow of charges.
- Let [tex]\dot{Q}[/tex] be the rate of heat transfer, likewise we have "I" as the rate of flow of charge.
- The heat transfer rate is inversely propotional to [tex]\frac{dx}{k.A}[/tex], where:
dx is the thickness of the material across which the heat travels,
k is the thermal conductivity of the material
A is the area of the pane normal to the heat flow.
And for current we have a constant factor R called resistance to which the current is inversely proportional to.
The heat transfer rate is given by the Fourier's Law as:
[tex]\dot Q=k.A\frac{\Delta T}{dx}[/tex]
can be further written as
[tex]\dot Q=\frac{\Delta T}{(\frac{dx}{k.A} )}[/tex]...............................(1)
The rate of flow of charge i.e. current is given by the Ohm's Law as:
[tex]V=R.I[/tex]
[tex]\Rightarrow I=\frac{V}{R}[/tex]..............................................(2)
From equations (1) & (2)
[tex]\dot Q\equiv I[/tex]
[tex]R\equiv \frac{dx}{k.A}[/tex]
[tex]\Delta T\equiv V[/tex]
