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Usage Examples
Filter by Meaning The dynamic range of a camera is measured using a logarithmic scale.
The data scientist applied logarithmic transformations to large datasets for data preprocessing.
The spread of the virus showed a logarithmic growth rate.
The student used a logarithmic table to solve the math problem.
The calculator can perform logarithmic calculations for complex equations.
The rate of decay of a radioactive substance is described by a logarithmic function.
The complexity of certain algorithms can be analyzed using logarithmic notation.
The logarithmic function is used to model phenomena in science and engineering.
The human hearing range is logarithmic, which means that we can hear a wide range of frequencies.
The differential equation could be solved by applying a logarithmic transformation.
The logarithmic approach provided a simple solution to the differential equation.
The spread of a virus in a population can be modeled by a logarithmic growth curve.
The growth of a population of bacteria may follow a logarithmic growth pattern.
The decrease in sound pressure level with distance from a source can be described by a logarithmic equation.
The rate of decay of radioactive isotopes can be modeled using a logarithmic function.
The stock market experienced a logarithmic increase in value over the past month.
The number of subscribers to a YouTube channel may grow at a logarithmic rate over time.
The logarithmic calculation is an essential component of many scientific studies.
Logarithmic functions are used in finance to calculate compound interest.
The process of finding the inverse of a logarithmic function is called exponentiation.
The logarithmic notation helped the scientist express the number in a more manageable form.
The computer program utilized logarithmic calculations to solve the problem efficiently.
The use of logarithmic tables was common in mathematics before the advent of calculators.
The logarithmic function can be used to solve equations with exponential expressions.
The logarithmic function is often used in computer science for representing data that grows exponentially.
The logarithmic formula is frequently used in statistical analyses.
A logarithmic spiral is a curve often found in nature, such as the shape of a seashell.
The astronomer employed logarithmic calculations to determine the distance between stars.
The use of logarithmic calculations is common in financial analyses.
The engineer utilized a logarithmic scale to graph the data.
The logarithmic properties of pH values are important in chemistry.
The logarithmic base ten is commonly used in everyday calculations.
The logarithmic function helped simplify the complex equation.
Logarithmic scales are often used in physics for measuring signals that span many orders of magnitude.
The Richter scale, which measures the magnitude of earthquakes, is based on a logarithmic scale.
The Weber-Fechner law describes a logarithmic relationship between stimulus intensity and perception.
The relationship between voltage and current in a resistor is logarithmic, according to Ohm's Law.
The efficiency of a chemical reaction may be modeled using a logarithmic relationship between reactant concentrations and reaction rate.
The decay of a radioactive substance can be described by a logarithmic relationship between the remaining amount and time.
The pH scale is logarithmic, measuring the acidity or alkalinity of a substance.
The growth of a bacterial colony follows a logarithmic pattern over time.
The voltage across a capacitor in an electrical circuit may follow a logarithmic relationship with time during charging or discharging.
The decibel scale is logarithmic, measuring the intensity of sound.
The depreciation of a car's value over time can be modeled by a logarithmic function.
The Richter scale is logarithmic, measuring the intensity of earthquakes.
The population growth of a certain species follows a logarithmic relationship with the availability of resources.
The strength of an earthquake can be estimated based on the logarithmic relationship between the amplitude of seismic waves and distance from the epicenter.
The earthquake magnitude scale is logarithmic, measuring the strength of seismic activity.
The price of a product may exhibit a logarithmic relationship with its demand in some markets.
The relationship between distance and time in a uniformly accelerating object is logarithmic, as described by Newton's second law of motion.
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