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Home > Articles > Dimension of Resistance: Dimensional Formula and Equation, Derivation, Applications, and Limitations
Updated on 20th February, 2023 , 4 min read
Resistance is a measure of the resistance to electron flow and is computed by dividing voltage by the current in the wire. The symbol for the unit of resistance is Ohm (Ω). As an electric current travels through a bulb, the bulb creates certain impediments to the current flow, which is known as electrical resistance. The opposition formed by a material against the passage of electricity is known as resistance.
The conductor's resistance is the opposition provided by a conductor during the passage of change. When a potential difference is placed across a conductor, free electrons are accelerated and collide with positive ions, causing their motions to be opposed. This opposition provided by ions is referred to as conductor resistance. So, resistance is the characteristic of a conductor that opposes the flow of current through it.
Any physical quantity's dimensional formula is the statement that represents how and which of the basic quantities are included in that quantity. It is expressed by encircling the symbols for base amounts with the appropriate power in square brackets, for example ( ).
For example, the mass dimension formula is (M).
One of the most essential subjects included in the IIT JEE syllabus is "Dimension of Resistance." Knowing more about resistance and the dimensional formula of resistance can improve their understanding of the physics topic, which accounts for a significant chunk of the IIT JEE test question paper. One will be able to answer the practical problems in your IIT JEE test with ease if one grasps the dimensional formula of resistance and its applications.
A "dimensional equation" is an equation derived by equating a physical quantity with its dimensional formula.
The resistance dimensional formula is provided by-
Where,
M = Mass
L = Length
T = Time
I = Current
The dimensional formula of resistance may be calculated using Ohm's law. Ohm's law's mathematical formula is-
Let us now deconstruct this formula in terms of fundamental quantities-
By substituting Force * displacement for the amount of Work,
By substituting Mass * Acceleration for the value of Force,
Also,
acceleration = speed/time speed = distance/time acceleration = distance / time² |
Now the formula of Resistance becomes,
Also, the formula for charge is "current * time."
Hence, the formula becomes,
Resistance = (mass * distance * displacement) / (Current * time * Current * time²)
= (mass * distance * displacement) / (Current² * time³)
= (mass * distance * displacement * time⁻³ * Current⁻²)
Hence, the dimensional equation of resistance is R = [M¹ L² T⁻³ A⁻²].
This approach can only be used if the dependence is of the multiplication type. This approach cannot be used to create formulas involving exponential, trigonometric, or logarithmic functions. A formula having more than one component that is added or removed, such as s = ut + 12 at2, cannot also be derived. The dimensionless constants are not mentioned in the relation obtained using this technique.
The following table contains some most popular resistance units-
Units |
Conversion to Ohm |
emu resistance |
1 emu of resistance = 10⁻⁹ Ω |
Kilo ohm (k Ω) |
1 K Ω (Kilo Ohm) = 10³ Ω |
Mega ohm (M Ω) |
1 M Ω (Mega Ohm) = 10⁶ Ω |
Stat ohm (stat Ω) |
1 stat Ω (stat Ω) = 9 X 10¹¹ Ω |
The following are some of the applications of dimensions of resistance-
It is based on the fact that the magnitude of a physical amount remains constant regardless of the measuring method employed, i.e.,
magnitude = numeric value(n) multiplied by unit (u) = constant
If the terms on both sides of a given relation have the same dimensions, then the equation is dimensionally accurate. This notion is best known as the principle of dimension homogeneity.
If the dependent values are known, the new connection among physical quantities may be determined using the concept of dimension homogeneity.
The following are some of the factors on which resistance depends-
Resistors are the essential components of every circuit commonly utilized to limit the quantity of current flow. Before employing resistors, it is important to understand their features so that they may be utilized particularly for a given demand and kind of circuit. The current flow is the result of the resistance and potential difference operating across the two ends of the circuit. The dimensional analysis of resistance allows for the discovery of the fundamental units of the quantity, paving the way for more accurate and smooth computations and comparisons with other physical quantities.
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By - Nikita Parmar 2024-09-06 10:59:22 , 6 min readAns. The dimensional representation of resistance is M¹ L² T⁻³ I⁻².
Ans. The SI unit of resistance is the ohm, which is represented by Ω.
Ans. Dimensions of physical quantities are the powers to which basic quantities are elevated in order to express that amount. It is expressed by encircling the symbols for base amounts with the appropriate power in square brackets, for example ( ).
Ans. The resistance of superconductors is zero.
Ans. Resistivity is defined as the resistance per unit length and cross-sectional area. It is a material property that blocks the flow of charge or electric current. The ohmmeter is the resistivity unit.
Ans. Copper is an excellent electrical conductor. Copper has a specific resistance of 1.72 * 10⁻⁸ Ohms meter.
Ans. The wire’s resistance is directly proportional to its cross-sectional area. As a result, they are increasing the cross-sectional area by a factor of two, doubling the resistivity.