To calculate the glide ratio, you divide the length it was thrown, e.g. 150cm, by the height it was thrown, e.g. 50cm. So 150/50=30cm so, it would be 30:1.
The ratio of rise over run is known as slope. In a linear equation, it can be found by identifying m in the equation Y=mx+b
Proportion ^.^
A glide refletion is a glide that has reflection.
φ2 - φ - 1 = 0
2.5 and better. It various, depending on brand and design. The different manufacturers are constantly improving the glide-ratio for their suits.
To calculate the glide ratio, you divide the length it was thrown, e.g. 150cm, by the height it was thrown, e.g. 50cm. So 150/50=30cm so, it would be 30:1.
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Such an equation is called a "proportion".
Current Ratio = Current Assets / Current Liabilities
It is a simple ratio charge/mass or e/m .
The ratio of rise over run is known as slope. In a linear equation, it can be found by identifying m in the equation Y=mx+b
That would be a function of the glide ratio of the paper airplane in question.
The stoichiometric ratio of the gases in the chemical equation is determined by the coefficients of the balanced equation. If the gases have the same temperature, pressure, and molar volume, then their stoichiometric ratio in the balanced chemical equation will be the same as their coefficients in the equation.
The molar ratio of two reactants in a chemical reaction is determined by the coefficients of the balanced chemical equation. These coefficients represent the number of moles of each reactant that are involved in the reaction. The molar ratio is the ratio of these coefficients.
The mole ratio of substances in a balanced equation is determined by the coefficients of the reactants and products in the equation. These coefficients represent the number of moles of each substance involved in the reaction. By looking at the ratios of these coefficients, you can determine the mole ratio of the substances involved.
A calculandum is an equation, ratio, or other problem which is to be calculated.