You cannot use Bernoulli's equation because the rocks would create a turbulent flow and you need a steady flow to use Bernoulli's equation. It could (in theory) but you would need accurate measurements of size shape and placement of each of the rocks involved. It would be a nightmare just to accumulate the data.
The solution of the equation.
you just need to enclose your equation like this: \begin{figure*} \begin{equation} % % \end{equation} \end{figure*}
Set 0=(denominator of the System Transfer Function), this is the Characteristic Equation of that system. This equation is used to determine the stability of a system and to determine how a controller should be designed to stabilize a system.
The equation for the average over time T is integral 0 to T of I.dt
Ohms Law is used for the measurement of resistance. You can find the resistance in a series circuit using this equation; amps=volts/resistance or volts=amps x resistance.The Power Law is used to find the wattage in the circuit. You can find the amount of watts using this equation: watts=volts x amps.CommentOhm's Law has nothing whatsoever to do with either resistance or power.The equation, R = E/I, is derived from the definition of the ohm, and not from Ohm's Law.Ohm's Law simply describes a linear relationship between the potential difference across a conductor and the current through it. It does NOT describe the relationship between potential difference, current, and resistance.
Airplane,ventrimeter,andpump
A1V1=A2V2 or V2=(A1/A2)(V1)
The man equation should be an equation / a system of equations that could describe the man as a living / non living entity.
It is a straight line.
No, but both describe the same chemical reaction.
mass divided by volume.
y - 5x is an expression, not an equation. As a result, it cannot describe a line.
Without an equality sign it can't be considered to be an equation.
Law of conservation of masses.
Equation
chemical equation
A chemical equation is a short way to describe a chemical reaction, so yes.