Nth Term of Geometric ProgressionThe Nth Term of Geometric Progression formula is defined as the term corresponding to the index or position n from the beginning of the given Geometric Progression.
Sum of Infinite Geometric ProgressionThe Sum of Infinite Geometric Progression formula is defined as the summation of the terms starting from the first term to the infinite term of given Infinite Geometric Progression.
Number of Terms of Geometric ProgressionThe Number of Terms of Geometric Progression formula is defined as the value of n for the nth term or the position of the nth term in a Geometric Progression.
Nth Term from End of Geometric ProgressionThe Nth Term from End of Geometric Progression formula is defined as the term corresponding to the index or position n starting from the end of the given Geometric Progression.
Sum of Total Terms of Geometric ProgressionThe Sum of Total Terms of Geometric Progression formula is defined as the summation of the terms starting from the first to the last term of given Geometric Progression.
Sum of Last N Terms of Geometric ProgressionThe Sum of Last N Terms of Geometric Progression formula is defined as the summation of the terms starting from the end to the nth term of a given Geometric Progression.
Nth Term of Arithmetic Geometric ProgressionThe Nth Term of Arithmetic Geometric Progression formula defined as the term corresponding to the index or position n from the beginning in the given Arithmetic Geometric Progression.
Sum of First N Terms of Geometric ProgressionThe Sum of First N Terms of Geometric Progression formula is defined as the summation of the terms starting from the first to the nth term of given Geometric Progression.
Sum of Infinite Arithmetic Geometric ProgressionThe Sum of Infinite Arithmetic Geometric Progression is the summation of the terms starting from the first term to the infinite term of given Arithmetic Geometric Progression.
Nth Term of Geometric Progression given (N-1)th TermThe Nth Term of Geometric Progression given (N-1)th Term formula is defined as the term corresponding to the index or position n from the beginning of the given Geometric Progression, and calculated using the preceding term.
Common Ratio of Geometric Progression given Nth TermThe Common Ratio of Geometric Progression given Nth Term formula is defined as the ratio of any term in the Geometric Progression to its preceding term and calculated using the nth term of Geometric Progression.
Common Ratio of Geometric Progression given Last TermThe Common Ratio of Geometric Progression given Last Term formula is defined as the ratio of any term in the Geometric Progression to its preceding term and calculated using the last term of Geometric Progression.
Sum of First N Terms of Arithmetic Geometric ProgressionThe Sum of First N Terms of Arithmetic Geometric Progression formula is defined as the summation of the terms starting from the first to the nth term of given Arithmetic Geometric Progression.
Nth Term from End of Geometric Progression given Last TermThe Nth Term from End of Geometric Progression given Last Term formula is defined as the term corresponding to the index or position n starting from the end of the given Geometric Progression, calculated using the last term.
Geometric altitudeGeometric Altitude is a measure of the height of an object or point above the Earth's equatorial radius, calculated by subtracting the Earth's radius from the absolute altitude.
Geometric step ratioThe Geometric step ratio is a multiplier for minimum size/range of product to simply obtain next standardized size of product.
Geometric DistributionThe Geometric Distribution formula is defined as the probability of achieving the first success in a sequence of independent Bernoulli trials, where each trial has a constant probability of success.
Geometric Mean of N NumbersThe Geometric Mean of N Numbers formula is defined as the average value or mean which signifies the central tendency of the set of n numbers by finding the product of their values.
Geometric Mean of Two NumbersGeometric Mean of Two Numbers formula is defined as the average value or mean which signifies the central tendency of the set of two numbers by finding the product of their values.
Mean of Geometric DistributionMean of Geometric Distribution formula is defined as the long-run arithmetic average value of a random variable that follows Geometric distribution.
Geometric Mean of Four NumbersThe Geometric Mean of Four Numbers formula is defined as the average value or mean which signifies the central tendency of the set of four numbers by finding the product of their values.
Geometric Mean of Three NumbersGeometric Mean of Three Numbers formula is defined as the average value or mean which signifies the central tendency of the set of three numbers by finding the product of their values.
Variance in Geometric DistributionVariance in Geometric Distribution formula is defined as the expectation of the squared deviation of the random variable associated with a statistical data following Geometric distribution, from its population mean or sample mean.
Variance of Geometric DistributionVariance of Geometric Distribution formula is defined as the expectation of the squared deviation of the random variable that follows Geometric distribution, from its mean.
Geometric Mean of Equilibrium Line SlopeThe Geometric Mean of Equilibrium Line Slope formula is defined as the mean value of the slope of equilibrium line, applicable for cases where equilibrium line is not straight.
Geometric Mean of First N Natural NumbersThe Geometric Mean of First N Natural Numbers formula is defined as the average value or mean which signifies the central tendency of the set of first n natural numbers by finding the product of their values.
Standard Deviation of Geometric DistributionStandard Deviation of Geometric Distribution formula is defined as the square root of expectation of the squared deviation of the random variable that follows Geometric distribution, from its mean.
Geometric altitude for given geopotential altitudeGeometric Altitude for Given Geopotential Altitude is a measure that calculates the Geometric height of an object or point above the Earth's surface, taking into account the Earth's radius and the geopotential altitude, providing a more accurate representation of altitude.
100 percent Covalent Bond Energy as Geometric MeanThe 100 percent Covalent Bond Energy as Geometric mean is defined as the amount of energy required to break apart a mole of molecules containing pure covalent bond into its component atoms.
Arithmetic Mean given Geometric and Harmonic MeansArithmetic Mean given Geometric and Harmonic Means formula is defined as the average value or mean which signifies the central tendency of the set of numbers by finding the sum of their values, and calculated using the Geometric mean and harmonic mean of them.
Geometric Mean given Arithmetic and Harmonic MeansGeometric Mean given Arithmetic and Harmonic Means formula is defined as the average value or mean which signifies the central tendency of the set of numbers by finding the product of their values, and calculated using the arithmetic mean and harmonic mean of them.
Harmonic Mean given Arithmetic and Geometric MeansHarmonic Mean given Arithmetic and Geometric Means formula is defined as the average value or mean which signifies the central tendency of the set of numbers by finding the reciprocal of their values, and calculated using the arithmetic mean and Geometric mean of them.
Heat Exchange by Radiation due to Geometric ArrangementHeat Exchange by Radiation due to Geometric Arrangement formula is defined as a measure of the rate of heat transfer between two objects due to their Geometric arrangement, taking into account the emissivity, surface area, and temperature difference between the objects.
Mean of Geometric Distribution given Probability of FailureMean of Geometric Distribution given Probability of Failure formula is defined as the long-run arithmetic average value of a random variable that follows Geometric distribution, and calculated using the probability of failure corresponding to that Geometric random variable.