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The Navier-Strokes equation is a term in physics used to describe the motion of a fluid substance. The equation applies Newton's second law to fluid motion.
The power law of indices says: (x^a)^b = x^(ab) = x^(ba) = (x^b)^a → e^(2x) = (e^x)² but e^x = 2 → e^(2x) = (e^x)² = 2² = 4
The 'answer' is the number that 'c' must be, if 5c is really the same as -75.In order to find out what number that is, you could use 'algebra'.First, write the equation, so that you can look at it:5c = -75Now, use the law of algebra that says: "If equals are divided by equals,then the quotients are equal".The left and right sides of your equation are equals. Divide them both by 5,and that law says that the quotients on both sides will be equal:c = -15
If p->q, then the law of the contrapositive is that not q -> not p
What is snell's law fefraction/reflection?
The Navier-Strokes equation is a term in physics used to describe the motion of a fluid substance. The equation applies Newton's second law to fluid motion.
Pascal Law is the basic law that is important fro applying fluid power.A hydrostatic principle that states when pressure is applied to a contained fluid, the force is transmitted equally in all directions.
In cosmology, the equation of state of a perfect fluid is characterized by a dimensionless number w, equal to the ratio of its pressure p to its energy density ρ: . It is closely related to the thermodynamic equation of state and ideal gas law.
Watt's Law is an incorrect term often used to 'rename' the power equation P=VI.The correct term is power law. The real Watt's law is an incorrect hypothesis dealing with the latent heat of steam, so it's not really a 'law' either.In other words anyone using the term Watt's Law in relation to electricity is wrong.
This formula is the ideal gas law. It relates different measurements in a gas, and has nothing to do with power.
Using Ohm's law, you can find voltage if power is given. The equation needed to solve for power is P(Power)= Voltage(E) x Current(I). Ohm's Law describes the relationship between resistance, current, power, and voltage.
This law hasn't a chemical equation !
The chemistry and scientific equation for the Beer Lambert Law is A=EBC. This equation can be used to calculate the Beer Lambert law, and you can use it yourself.
Darcy's law is an equation that describes the flow of a fluid through a porous medium. It states that the flow rate is directly proportional to the pressure gradient and the permeability of the medium, while inversely proportional to the viscosity of the fluid. It is commonly used in hydrogeology and petroleum engineering to predict fluid flow in porous media.
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.
The "law of demand" is part of an economic equation that dictates the overall worth and value of a commodity. When an item is in high demand the price will increase, when the demand for an item decreases so will the price.
To use Hess Law, one simply uses the known equations and their respective ∆H values, rearranges them as necessary to arrive at the target equation (unknown ∆H) and then adds the ∆H values to obtain the value for the target equation. This is possible because Hess Law applies to state functions which are independent of the path.