no ! dimensions of force and that of frequency are different.
The dimension of force can be written using the Buckingham Pi Theorem as: force = density * frequency^2 * (acceleration due to gravity) This expression indicates that force has dimensions of mass per unit volume times inverse time squared, multiplied by acceleration due to gravity.
it is the dimension of force over dimension of area. stress = force/area Why, that's just pressure !
No, but dimensions can be to negative powers. For example, the dimension for frequency is [T-1].
The zero phase frequency is the frequency at which the phase of the input signal and the output signal match.
Forcing frequency refers to the frequency at which an external force is applied to a system. This force can cause the system to oscillate or vibrate with the same frequency as the external force. In physics and engineering, understanding the forcing frequency is essential for analyzing the system's response and behavior.
The force-frequency relationship refers to how the force produced by a muscle or system changes with the frequency of stimulation. In general, as the frequency of stimulation increases, the force produced by the muscle also increases. This relationship impacts the behavior of the system by influencing its ability to generate force and perform tasks efficiently at different frequencies of stimulation.
No, gravity is a fundamental force of nature, not a dimension. Dimensions are the measurable extent of a space, while gravity is the force that attracts objects toward each other.
For resonance to occur, two main conditions must be met: 1) The frequency of the driving force must match the natural frequency of the system, and 2) There must be minimal damping in the system to allow the energy to build up and sustain the oscillations.
more or less, yes
Voltron The Third Dimension - 1998 A Rift in the Force 1-5 was released on: USA: 31 October 1998
dimensional consistency says that in any equation the dimensions of the quantities in the rhs and lhs are same. for example force =mass*acceleration force dimensions are MLT-2 : mass dimension M ;acceleration dimension LT-2 togehter the right hand side is also having MLT-2 dimension same as that of force.
Momentum = Mass X Velocity Velocity = Displacement/Time Dimension of Mass = M Dimension of Displacement = L Dimension of Time = T Therefore Dimension of Velocity = LT-1 Therefore Dimension of Momentum = MLT-1