Airplane,ventrimeter,andpump
Assuming the equation is 3x=15, you just need to divide each side of the equation by three. On the left, x times three divided by three is one times x, or just x. On the right side, fifteen divided by three is five. So you are left with x=5.
This question cannot be answered without the whole equation: If the equation is y = 2x, then y = 6 for x = 3. If the equation is y = x + 2, then y = 5 for x = 3. If the equation is y = 99/x, then y = 33 for x = 3. If you can provide the complete equation, your question could be answered more precisely.
Laplace transforms to reduce a differential equation to an algebra problem. Engineers often must solve difficult differential equations and this is one nice way of doing it.
3
y = -2.5 is a equation. And solution to the equation is finding the value of the variable. If we see the equation y is already equal to -2.5 which is the solution to the equation.
A1V1=A2V2 or V2=(A1/A2)(V1)
Use equation.
You'll find "real-life applications" of the quadratic equation mainly in engineering applications, not in sustainable development.
find the variable(s). then write the equation(s). finally simplify the equation(s)
Bernoullis principle
Poisson's equation is a partial differential equation of elliptic type. it is used in electrostatics, mechanical engineering and theoretical physics.
Yes, equation has three syllables: e-qua-tion.
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.
the correct answer is speed!
Applications of biometrics are broadly classfied into three categories: 1. Forensic Applications; 2. Government Applications and 3. Commercial Applicatuions
applications of simple pendulum