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Usage Examples
Filter by Meaning The student struggled to understand the concept of solving differential equations using logarithmic functions.
The logarithmic solution of the differential equation is essential in the study of growth and decay processes.
The magnitude of stellar objects is measured on a logarithmic scale called the magnitude scale.
The response of a detector to radiation is measured on a logarithmic scale.
The earthquake's magnitude was measured on a logarithmic scale.
The frequency response of an amplifier is measured on a logarithmic scale.
The Richter scale measures earthquake magnitudes on a logarithmic scale.
The response of the human eye to light is measured on a logarithmic scale.
The Weber-Fechner law describes the relationship between stimuli and sensation on a logarithmic scale.
The loudness of the sound was measured using a logarithmic scale.
The power output of a radio transmitter is measured on a logarithmic scale.
The amount of radiation exposure is measured on a logarithmic scale.
The human ear perceives loudness on a logarithmic scale.
The decibel scale is a logarithmic scale used to measure sound intensity.
The dynamic range of a digital camera is measured on a logarithmic scale in stops.
The Richter scale is a logarithmic scale used to measure earthquake intensity.
The attenuation of a signal is measured on a logarithmic scale in units of decibels per unit distance.
The brightness of stars is measured using a logarithmic scale.
The pH scale is a logarithmic scale used to measure acidity or alkalinity.
The decibel scale measures sound intensity on a logarithmic scale.
The response of the human ear to different frequencies of sound is not linear, but follows a logarithmic relationship.
The amplitude of electrical signals in a neuron follows a logarithmic relationship with the intensity of the stimulus.
The pH scale describes the logarithmic relationship between the concentration of hydrogen ions in a solution and its acidity or basicity.
The decibel scale is used to describe the logarithmic relationship between the intensity of a sound and the threshold of human hearing.
The attenuation of radio signals follows a logarithmic relationship with distance.
The intensity of light decreases on a logarithmic scale as it travels through a medium.
The brightness of stars follows a logarithmic relationship with their apparent magnitude.
The Weber-Fechner law describes the logarithmic relationship between the intensity of a stimulus and the sensation it produces.
Earthquakes follow a logarithmic relationship between magnitude and energy released.
The human eye perceives changes in brightness on a logarithmic scale.
The perceived brightness of stars follows a logarithmic scale based on their apparent magnitude.
The transmission of a signal through a medium follows a logarithmic relationship with distance due to attenuation.
The Weber-Fechner law describes the logarithmic relationship between the intensity of a stimulus and its perceived magnitude.
The intensity of light diminishes according to a logarithmic relationship as it travels through a medium such as air or water.
The human ear perceives changes in sound intensity on a logarithmic scale.
The pH scale is a logarithmic scale of hydrogen ion concentration in a solution.
The perceived loudness of sound follows a logarithmic relationship with the amplitude of the sound wave.
The Richter scale is used to measure the logarithmic relationship between the size of an earthquake and the amplitude of its seismic waves.
Earthquake magnitudes follow a logarithmic scale based on energy release.
The logarithmic scale can be useful for measuring the intensity of earthquakes.
The logarithmic method of solving differential equations can be used to predict future trends in financial markets.
The pH of the solution was measured using a logarithmic scale.
The intensity of earthquakes is measured on a logarithmic scale known as the Richter scale.
The earthquake was measured on a logarithmic scale, indicating its intensity.
The researcher used a logarithmic transformation to solve the differential equation in the study.
The pH scale is logarithmic, measuring the acidity or basicity of a solution.
The researcher used a logarithmic model to analyze the growth rate of a population.
The logarithmic method was used to solve the differential equation.
The logarithmic function helped to find the solution to the differential equation.
The differential equation required a logarithmic approach.
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