Logarithmic example sentences

"Logarithmic" Example Sentences

1. The values on the y-axis are plotted on a logarithmic scale.
2. Calculating exponential growth often involves logarithmic functions.
3. The pH scale is logarithmic, meaning each unit is a factor of 10.
4. The distribution of earthquakes follows a logarithmic pattern.
5. The power output of our speakers decreases logarithmically as distance increases.
6. The algorithm used a logarithmic technique to analyze the data.
7. The Richter scale measures the strength of earthquakes using a logarithmic scale.
8. The frequency response of a filter can be represented by a logarithmic graph.
9. The number of bacteria in a culture can increase exponentially, so it is often represented on a logarithmic scale.
10. The difficulty level of a certain puzzle game increases logarithmically as the player advances.
11. The speed of sound in air changes logarithmically with temperature and pressure.
12. The loudness of sound is measured on a logarithmic scale in decibels.
13. The spread of a disease can be modeled using a logarithmic function.
14. The flow rate through a pipe can be measured using a logarithmic scale.
15. The brightness of stars is measured on a logarithmic scale known as magnitude.
16. The complexity of an algorithm can be measured using its logarithmic time complexity.
17. The spacing of frets on a guitar follows a logarithmic pattern.
18. The intensity of an earthquake decreases logarithmically with distance from the epicenter.
19. The rate of radioactive decay can be measured using a logarithmic graph.
20. The perceptual loudness of sound follows a logarithmic function.
21. The energy of electromagnetic waves decreases logarithmically with distance from the source.
22. The strength of a magnetic field decreases logarithmically with distance from the magnet.
23. The surface area of a sphere increases logarithmically with its volume.
24. The amount of time it takes to perform a task can be modeled using a logarithmic function.
25. The complexity of a network can be measured using its logarithmic growth rate.
26. The level of risk in a portfolio can be calculated using logarithmic returns.
27. The frequency response of an amplifier can be graphed using a logarithmic scale.
28. The Weber-Fechner law states that the perceived intensity of a stimulus increases logarithmically with its physical intensity.
29. The sensitivity of an instrument can be represented by a logarithmic scale.
30. The rate of change of a logarithmic function decreases as the argument gets larger.

Common Phases

1. The logarithmic function is used to model exponential growth or decay;
2. The logarithmic scale is used to represent large or small numbers on a more manageable scale;
3. Logarithmic differentiation is a technique used to differentiate complicated functions;
4. The natural logarithm, also known as ln, is a specific type of logarithmic function;
5. Logarithmic functions can be used to solve exponential equations.