d=m/v That is mass divided by volume.
The dimensional formula of compressibility is M^-1 L^-2 T^2, where M represents mass, L represents length, and T represents time. It quantifies how a substance changes in volume in response to a change in pressure.
M0l-1t-1
The Rayleigh correction formula is required for pitot-static tubes in supersonic flows because at high speeds and low pressures, the compressibility effects become significant. The formula accounts for these compressibility effects in the measurement of flow parameters such as pressure and velocity, ensuring more accurate readings in supersonic flow conditions. Without the correction, the readings obtained from the pitot-static tube may be inaccurate due to the influence of compressibility.
The dimensional formula for relative refractive index is [M^0 L^0 T^0].
The dimensional formula of magnetic flux is [M^1 L^2 T^-2 I^-1].
The dimensional formula of force is [M][L][T]^-2, representing mass, length, and time raised to the respective exponents of 1, 1, and -2.
The dimensional formula of a physical quantity represents how it is composed of fundamental dimensions like length, mass, and time. For example, the dimensional formula of velocity is [LT^-1] where L represents length and T represents time. The dimension of a physical quantity refers to the type of fundamental dimension it represents, like length, mass, or time.
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
[Young's Modulus] = M1L-1T-2 __> this is the dimensional formula
compressibility of petrol
no
no
the formula showing the relation between the unit of any physical quantity n the unit of fundamental physical quantity is called dimensional formula.........of dat quantity
ML2T-3
The dimensional formula of force is [M][L][T]^-2, representing mass, length, and time raised to the respective exponents of 1, 1, and -2.
The dimensional formula of absolute temperature is [M^0 L^0 T^0 K^1], where M represents mass, L represents length, T represents time, and K represents temperature.
The dimensional formula of amplitude of vibration is [L], where L represents length or distance. This is because amplitude is a measure of the maximum extent of a vibration from its equilibrium position, which is typically measured in units of length (such as meters).
M2l3kkj