Daniel Bernoulli, a Swiss mathematician and physicist, formulated Bernoulli's equation in his book "Hydrodynamica" in 1738. The equation describes the conservation of energy in a fluid flow system and has applications in fluid dynamics and aerodynamics.
A chemical equation presents the chemical formulas of reactants and products involved in a chemical reaction, along with the symbols and coefficients representing the amounts of each substance. It also shows the conservation of atoms (mass) and charge before and after a reaction.
The balanced chemical equation is 2HBr + H2 + Br2 + N2O → N2 + O2 + HBr + H2 + Br2. The equation provided in your question doesn't appear to balance correctly, so I attempted to balance it based on the chemical species presented. It's essential to ensure that the number of atoms of each element is the same on both sides of the equation.
if you mean symbol equation its C6H1206
A chemical equation is a shorthand description of a chemical reaction.
To write a net ionic equation from a complete ionic equation, you remove the spectator ions that appear on both sides of the equation. The remaining ions that participate in the reaction are then included in the net ionic equation. This simplifies the equation to show only the ions that undergo a chemical change.
Airplane,ventrimeter,andpump
A1V1=A2V2 or V2=(A1/A2)(V1)
Bernoullis principle
A chemical equation presents the chemical formulas of reactants and products involved in a chemical reaction, along with the symbols and coefficients representing the amounts of each substance. It also shows the conservation of atoms (mass) and charge before and after a reaction.
http://en.wikipedia.org/wiki/Bernoulli%27s_principle#Real_world_application
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.
In Bernoulli's equation, the square term arises from the kinetic energy component of fluid flow. The equation, which relates pressure, velocity, and elevation in a flowing fluid, includes the term (\frac{v^2}{2g}), where (v) is the fluid velocity and (g) is the acceleration due to gravity. This term represents the kinetic energy per unit weight of the fluid, highlighting that the energy associated with motion increases with the square of the velocity. Thus, the square emphasizes the non-linear relationship between velocity and kinetic energy in fluid dynamics.
this is a dumb ? i don't get it if u were a presented...... presented what?
The formula for the center of a circle is given by the coordinates ((h, k)) in the standard equation of a circle, which is ((x - h)^2 + (y - k)^2 = r^2). Here, ((h, k)) represents the center of the circle, and (r) is the radius. If the equation is presented in a different form, you can derive the center by rearranging the equation to match the standard form.
The number from which another number is being subtracted is called the "minuend." In a subtraction equation, the minuend is the first number presented, while the second number, which is being subtracted, is known as the "subtrahend." For example, in the equation 10 - 3 = 7, the minuend is 10.
use the equation Area=pi*r2 r is the radius of a circle If you are presented with the diameter of the circle, divide by 2 to receive the radius. Now, square and multiply by pi.
When films are presented in letterboxes, it means that the film is transferred in a certain way. Films that are presented in letterboxes are presented in wide screen.