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What is the dimensional formula of gravitational constant?
The dimensional formula of gravitational constant is [M⁻¹L³T⁻²], where M represents mass, L represents length, and T represents time. It signifies that the gravitational constant has dimensions of mass inverse times length cubed divided by time squared.
The dimensional formula of gravitational constant is [M⁻¹L³T⁻²], where M represents mass, L represents length, and T represents time. It signifies that the gravitational constant has dimensions of mass inverse times length cubed divided by time squared.
See lessState the dimensional formula of frequency.
The dimensional formula of frequency is [T⁻¹], where T represents time. It indicates that frequency has dimensions of time inverse.
The dimensional formula of frequency is [T⁻¹], where T represents time. It indicates that frequency has dimensions of time inverse.
See lessDetermine the dimensions of angular velocity.
The dimensions of angular velocity are given by [T⁻¹], where T represents time. This implies that angular velocity has dimensions of time inverse.
The dimensions of angular velocity are given by [T⁻¹], where T represents time. This implies that angular velocity has dimensions of time inverse.
See lessWhat is the dimensional formula of density?
The dimensional formula of density is [ML⁻³], where M represents mass and L represents length. It signifies that density has dimensions of mass divided by length cubed.
The dimensional formula of density is [ML⁻³], where M represents mass and L represents length. It signifies that density has dimensions of mass divided by length cubed.
See lessState the dimensional formula of impulse.
The dimensional formula of impulse is [MLT⁻¹], where M represents mass, L represents length, and T represents time. It indicates that impulse has dimensions of mass times length divided by time.
The dimensional formula of impulse is [MLT⁻¹], where M represents mass, L represents length, and T represents time. It indicates that impulse has dimensions of mass times length divided by time.
See lessDetermine the dimensions of pressure.
The dimensions of pressure are given by [ML⁻¹T⁻²], where M represents mass, L represents length, and T represents time. This implies that pressure has dimensions of mass divided by length times time squared.
The dimensions of pressure are given by [ML⁻¹T⁻²], where M represents mass, L represents length, and T represents time. This implies that pressure has dimensions of mass divided by length times time squared.
See lessWhat is the dimensional formula of power?
The dimensional formula of power is [ML²T⁻³], where M represents mass, L represents length, and T represents time. It signifies that power has dimensions of mass times length squared divided by time cubed.
The dimensional formula of power is [ML²T⁻³], where M represents mass, L represents length, and T represents time. It signifies that power has dimensions of mass times length squared divided by time cubed.
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