At any given temperature, the average speed of a gas can be determined using the root-mean-square speed formula: Urms = sqrt[(3RT)/M]. For xenon atoms to have the same average speed as Cl2 molecules at a specific temperature, the root-mean-square speed of both gases should be equal. By setting up and solving the equations, you can determine the temperature at which this equality occurs.
The formula to calculate maximum speed is: maximum speed = square root of (2 * acceleration * distance). This formula takes into account the acceleration and distance traveled to determine the maximum velocity attainable.
The measure for the average speed of air molecules is typically calculated using the root mean square (RMS) speed formula, which considers the distribution of speeds within the gas. The RMS speed provides a representative value that takes into account the kinetic energy of individual molecules in the gas sample.
RMS stands for Root Mean Square. It is a statistical measure of the magnitude of a varying quantity, typically used to describe the amount of power in an electrical signal. RMS is calculated by taking the square root of the arithmetic mean of the squares of the values.
RMS speed refers to the root-mean-square speed of gas particles in a sample. It represents the average speed of particles in a gas at a given temperature and is calculated using the formula v_rms = sqrt(3kT/m), where k is the Boltzmann constant, T is the temperature in Kelvin, and m is the mass of the gas particle.
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Do you mean: What is the square root of (8 squared)? If so, there are two answers: 8 and -8. Or do you mean: What is the (square root of 8) squared? If so, there is only one answer: 8.
What is the root-mean-squared speed of the helium atom in one mole of an ideal gas at a pressure of 2.00 atmospheres and a temperature of 30 degrees C?
The speed of light [3.0 x 108ms-1]
the formula is a squared + b squared = c squared to find the hypotenuse (the longest side) find the square root of you previous answer.
If yoiu mean pt A = ( 8,2) & B = (3,8) We apply Pythagoras. Distance 'd^(2)' = (x(A) - x(B))^2 + (y)A) - y(B))^(2) Substituting d^)2 = (8 - 3)^(2) + ( 2 - 8)^(2) d^(2) = 5^(2) + -6^(2) d^(2) = 25 + 36 d^(2) = 61 d = sqrt(61)
if you mean a right triangle then the formula is a squared + b squared = c squared. a and b are the legs and c is the hypotunese. the legs are the smallest number then the hypotenese. An example is a=3 , b= ? and c =5 use the formula : a squared + b squared = c squared 3 squared + b squared = 5 squared 9 + b squared = 25 -9 - 9 _________________________________________ b squared = 16 Then you have to take the squared root of 16 which is 4 and 4 is b squared.
diagonal = square root ( side squared + side squared) = square root (2) x side (pythagorean theorem since angle is 90degrees)
The Distance Formula! D = square root of (y2-y1) quantity squared + (x2-x1) quantity squared
-b + or - the square root of b squared - 4ac over/divided by 2a
i is an imaginary number which equals the square root of -1. i squared is simply -1.
The surface area is length times width plus length. Then you find the square root of the width divided by two and then squared. You add this to the height squared plus the width. The width is multiplied by the square root of 1/2 squared plus the height squared.