m1l1t-2
The dimensional formula of force constant is MLT⁻², where M represents mass, L represents length, and T represents time.
The dimensional formula of force is ([M] \cdot [L] \cdot [T]^{-2}), where ([M]) represents mass, ([L]) represents length, and ([T]) represents time.
If the force F length l and time T are chosen as fundamental quantities the dimensional formula foe mass
The dimensional formula of electric current is [I] = [A], where I represents current and A represents ampere.
The dimensional formula for angular velocity is T-1, where T represents time.
The dimensional formula of force constant is MLT⁻², where M represents mass, L represents length, and T represents time.
The dimensional formula of depression is that it has the same dimensions as pressure, which is force per unit area. Thus, the dimensional formula of depression is [ML^-1T^-2].
The dimensional formula of force is ([M] \cdot [L] \cdot [T]^{-2}), where ([M]) represents mass, ([L]) represents length, and ([T]) represents time.
If the force F length l and time T are chosen as fundamental quantities the dimensional formula foe mass
Resistance = V/I Dimensional formula for V ML2T -3A -1 Dimensional formula for I A Dimensional formula for R= ML2T -3A -1 / A = ML2T -3A -2
Resistance = V/I Dimensional formula for V ML2T -3A -1 Dimensional formula for I A Dimensional formula for R= ML2T -3A -1 / A = ML2T -3A -2
The dimensional formula of current density (J) is derived from the definition of current density as current per unit area. Current (I) has a dimensional formula of ([I]), and area (A) has a dimensional formula of ([L^2]). Therefore, the dimensional formula of current density is ([J] = [I][L^{-2}] = [I][L^{-2}]).
[Young's Modulus] = M1L-1T-2 __> this is the dimensional formula
The dimensional formula of electric current is [I] = [A], where I represents current and A represents ampere.
The dimensional formula for angular velocity is T-1, where T represents time.
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