DFT in a sentence
Synonym: mathematics, transform.
Meaning: Abbreviation for Discrete Fourier Transform; a mathematical transformation.
(1) DFT is based on the Hohenberg-Kohn theorem.
(2) DFT is based on the principles of quantum mechanics.
(3) DFT has been instrumental in the design of new drugs.
(4) DFT has revolutionized the field of materials science.
(5) The DFT algorithm is commonly used in signal processing.
(6) The DFT method is widely used in computational chemistry.
(7) The DFT can be used to analyze the periodicity of a signal.
(8) DFT is widely used in the field of computational catalysis.
(9) DFT is an acronym that stands for Discrete Fourier Transform.
(10) The DFT is a fundamental concept in digital signal processing.
DFT sentence
(11) DFT is a widely used computational method in quantum chemistry.
(12) The DFT is widely used in scientific research for analyzing data.
(13) The DFT can be used to analyze the frequency response of a system.
(14) The DFT is a key component in many audio effects and synthesizers.
(15) DFT is widely used in the field of computational materials science.
(16) DFT can provide insights into the electronic structure of materials.
(17) DFT provides a powerful tool for understanding electronic structures.
(18) Many software packages are available for performing DFT calculations.
(19) DFT calculations can be time-consuming, especially for large systems.
(20) DFT calculations can be used to optimize the geometries of molecules.
DFT make sentence
(21) DFT is often used in conjunction with molecular dynamics simulations.
(22) DFT calculations are commonly employed to study molecular properties.
(23) DFT has been successfully applied to investigate catalytic reactions.
(24) The DFT can be used to perform convolution and correlation operations.
(25) DFT is a powerful tool for predicting the properties of nanomaterials.
(26) The DFT is closely related to the Fourier series and Fourier transform.
(27) DFT is a versatile method that can be used to study chemical reactions.
(28) DFT calculations are often used to predict the properties of catalysts.
(29) Many audio and image processing techniques rely on the DFT for analysis.
(30) The DFT is an efficient way to compute the Fourier transform of a signal.
Sentence of dft
(31) Researchers often rely on DFT calculations to study molecular properties.
(32) DFT is a powerful tool for studying the energetics of chemical reactions.
(33) The DFT is often used in audio processing to analyze and manipulate sound.
(34) The DFT can be used to extract specific frequency components from a signal.
(35) The DFT is a fundamental concept in the field of digital signal processing.
(36) The success of DFT lies in its ability to describe electronic interactions.
(37) DFT is a quantum mechanical method that approximates the many-body problem.
(38) DFT calculations can be used to investigate the behavior of excited states.
(39) DFT has become an indispensable tool in the field of theoretical chemistry.
(40) DFT calculations can be used to study the vibrational spectra of molecules.
DFT meaningful sentence
(41) DFT can be applied to various systems, including solids, liquids, and gases.
(42) The DFT is an essential tool for analyzing the frequency content of a signal.
(43) The DFT can be used to analyze the frequency content of a musical instrument.
(44) The implementation of DFT algorithms requires efficient numerical techniques.
(45) Understanding the mathematics behind the DFT can be challenging for beginners.
(46) The accuracy of DFT calculations can be benchmarked against experimental data.
(47) The accuracy of DFT calculations can be affected by the size of the basis set.
(48) Implementing the DFT efficiently can greatly improve computational performance.
(49) DFT calculations can provide insights into the optical properties of materials.
(50) DFT is a valuable tool for studying the electronic properties of nanomaterials.
DFT sentence examples
(51) The development of new functionals has improved the accuracy of DFT predictions.
(52) DFT calculations can help predict the stability of different crystal structures.
(53) DFT calculations can be used to predict the thermodynamic stability of compounds.
(54) The DFT is widely used in fields such as telecommunications and image compression.
(55) The DFT is a powerful tool for analyzing the spectral characteristics of a signal.
(56) The DFT is a valuable tool for analyzing the spectral characteristics of a signal.
(57) DFT calculations can be used to predict the thermodynamic properties of materials.
(58) DFT is widely used in the study of electronic and optical properties of materials.
(59) DFT is a versatile method that can be applied to a wide range of chemical systems.
(60) The computational efficiency of DFT makes it suitable for large-scale simulations.
Sentence with dft
(61) DFT calculations can be used to predict the electronic band structure of materials.
(62) DFT calculations can provide information about the vibrational spectra of molecules.
(63) The development of hybrid functionals has improved the accuracy of DFT calculations.
(64) The accuracy of DFT predictions can be validated by comparing with experimental data.
(65) The computational cost of DFT calculations can be reduced by using parallel computing.
(66) The accuracy of DFT calculations can be improved by including dispersion interactions.
(67) The DFT is an important tool for analyzing and manipulating signals in various domains.
(68) The accuracy of DFT calculations depends on the chosen exchange-correlation functional.
(69) DFT calculations can help understand the behavior of materials under extreme conditions.
(70) The success of DFT has led to its widespread adoption in various scientific disciplines.
Use dft in a sentence
(71) DFT calculations can provide valuable insights into the reactivity of chemical compounds.
(72) The accuracy of DFT calculations can be benchmarked against high-level ab initio methods.
(73) The accuracy of DFT calculations can be influenced by the treatment of solvation effects.
(74) The DFT is an important concept in digital communications for modulation and demodulation.
(75) The accuracy of DFT calculations depends on the choice of exchange-correlation functional.
(76) The development of efficient numerical algorithms has made DFT calculations more accessible.
(77) The DFT can be used to convert a time-domain signal into its frequency-domain representation.
(78) The development of new exchange-correlation functionals is an active area of research in DFT.
(79) DFT is a valuable tool for understanding the electronic properties of organic semiconductors.
(80) The DFT is widely used in image processing for tasks such as image enhancement and compression.
(81) The success of DFT lies in its ability to describe both ground and excited states of molecules.
(82) DFT calculations can be used to investigate the behavior of materials under extreme conditions.
(83) The DFT is a linear transformation that maps a finite sequence of numbers to another sequence of numbers.
(84) The DFT is a mathematical technique used to transform a signal from the time domain to the frequency domain.
DFT meaning
DFT, or Density Functional Theory, is a widely used computational method in the field of quantum mechanics. It is employed to study the electronic structure and properties of molecules, solids, and materials. In this article, we will explore various tips on how to use the term "DFT" or "Density Functional Theory" in a sentence effectively.
1. Introduction: When introducing the concept of DFT, it is essential to provide a brief explanation of what it entails.
For example, "Density Functional Theory (DFT) is a computational method used to investigate the electronic properties of atoms, molecules, and materials."
2. Defining DFT: To ensure clarity, it is crucial to define DFT explicitly. For instance, "DFT is an approach that allows us to calculate the electronic density of a system by solving the Schrdinger equation using a set of approximations."
3. Describing the purpose of DFT: When discussing the purpose of DFT, it is important to highlight its applications and advantages.
For example, "DFT is widely employed in materials science to predict the properties of new materials, such as their electronic structure, stability, and reactivity."
4. Comparing DFT with other methods: To provide a comprehensive understanding, it can be helpful to compare DFT with other computational methods. For instance, "Unlike traditional quantum mechanical methods, DFT offers a good compromise between accuracy and computational cost, making it suitable for studying large systems."
5. Explaining the workflow of DFT: To give readers an idea of how DFT works, it is beneficial to describe its workflow.
For example, "In DFT calculations, the first step involves selecting an appropriate exchange-correlation functional, which describes the electron-electron interactions. Then, the Schrdinger equation is solved self-consistently to obtain the electron density distribution."
6. Providing examples of DFT applications: To illustrate the versatility of DFT, it is helpful to provide examples of its applications. For instance, "DFT has been successfully used to study the catalytic activity of nanoparticles, the electronic properties of organic semiconductors, and the behavior of molecules in solution."
7. Highlighting the limitations of DFT: While DFT is a powerful tool, it is important to acknowledge its limitations.
For example, "DFT calculations can be sensitive to the choice of exchange-correlation functional, and it may not accurately capture certain phenomena, such as dispersion forces or excited states."
8. Discussing recent advancements in DFT: To showcase the ongoing developments in the field, it is beneficial to mention recent advancements in DFT. For instance, "Recent advancements in DFT include the development of new exchange-correlation functionals that better describe van der Waals interactions and the incorporation of time-dependent DFT for studying excited states."
9. Summarizing the importance of DFT:
In conclusion, it is essential to summarize the significance of DFT in scientific research.
For example, "Density Functional Theory (DFT) has revolutionized the field of computational chemistry and materials science, providing researchers with a powerful tool to investigate the electronic structure and properties of various systems." Incorporating these tips into your writing will help you effectively use the term "DFT" or "Density Functional Theory" in a sentence, ensuring clarity and understanding for your readers.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word DFT. They do not represent the opinions of TranslateEN.com.