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Determine the dimensions of specific heat capacity.
The dimensions of specific heat capacity are given by [L²T⁻²Θ⁻¹], where L represents length, T represents time, and Θ represents temperature. This implies that specific heat capacity has dimensions of length squared divided by time squared times temperature inverse.
The dimensions of specific heat capacity are given by [L²T⁻²Θ⁻¹], where L represents length, T represents time, and Θ represents temperature. This implies that specific heat capacity has dimensions of length squared divided by time squared times temperature inverse.
See lessWhat is the dimensional formula of resistivity?
The dimensional formula of resistivity is [ML³T⁻³A⁻²], where M represents mass, L represents length, T represents time, and A represents electric current. It signifies that resistivity has dimensions of mass times length cubed divided by time cubed times electric current squared.
The dimensional formula of resistivity is [ML³T⁻³A⁻²], where M represents mass, L represents length, T represents time, and A represents electric current. It signifies that resistivity has dimensions of mass times length cubed divided by time cubed times electric current squared.
See lessState the dimensional formula of magnetic flux.
The dimensional formula of magnetic flux is [ML²T⁻²A⁻¹], where M represents mass, L represents length, T represents time, and A represents electric current. It indicates that magnetic flux has dimensions of mass times length squared divided by time squared times electric current.
The dimensional formula of magnetic flux is [ML²T⁻²A⁻¹], where M represents mass, L represents length, T represents time, and A represents electric current. It indicates that magnetic flux has dimensions of mass times length squared divided by time squared times electric current.
See lessDetermine the dimensions of capacitance.
The dimensions of capacitance are given by [M⁻¹L⁻²T⁴A²], where M represents mass, L represents length, T represents time, and A represents electric current. This implies that capacitance has dimensions of mass inverse times length inverse times time squared times electric current squared.
The dimensions of capacitance are given by [M⁻¹L⁻²T⁴A²], where M represents mass, L represents length, T represents time, and A represents electric current. This implies that capacitance has dimensions of mass inverse times length inverse times time squared times electric current squared.
See lessWhat is the dimensional formula of electric potential?
The dimensional formula of electric potential is [ML²T⁻³A⁻¹], where M represents mass, L represents length, T represents time, and A represents electric current. It signifies that electric potential has dimensions of mass times length squared divided by time cubed times electric current.
The dimensional formula of electric potential is [ML²T⁻³A⁻¹], where M represents mass, L represents length, T represents time, and A represents electric current. It signifies that electric potential has dimensions of mass times length squared divided by time cubed times electric current.
See lessState the dimensions of magnetic field strength.
The dimensions of magnetic field strength are given by [MT⁻¹A⁻¹], where M represents mass, T represents time, and A represents electric current. This implies that magnetic field strength has dimensions of mass divided by time times electric current.
The dimensions of magnetic field strength are given by [MT⁻¹A⁻¹], where M represents mass, T represents time, and A represents electric current. This implies that magnetic field strength has dimensions of mass divided by time times electric current.
See lessDetermine the dimensional formula of electric charge.
The dimensional formula of electric charge is [AT], where A represents electric current and T represents time. It indicates that electric charge has dimensions of electric current times time.
The dimensional formula of electric charge is [AT], where A represents electric current and T represents time. It indicates that electric charge has dimensions of electric current times time.
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