100 Examples of sentences containing the noun "angstrom"

Definition

An angstrom is a unit of measurement used in physics and chemistry to express very small lengths, particularly at the atomic and molecular scale. It is equal to one ten-billionth of a meter (1 Å = 10^-10 m) and is often used to measure wavelengths of light, atomic radii, and bond lengths.

Synonyms

• Nanometer (nm)
• Picometer (pm)
• Micrometer (µm)

Antonyms

• Kilometer (km)
• Megameter (Mm)
• Gigameter (Gm)

Examples

1. The wavelength of visible light is typically in the range of 4000 to 7000 angstrom.
2. Scientists often use angstrom when discussing atomic structures.
3. The diameter of a hydrogen atom is approximately one angstrom.
4. The angstrom scale is crucial in understanding quantum mechanics.
5. When light passes through a prism, it can split into different colors measured in angstrom.
6. The resolution of the microscope is often expressed in angstrom.
7. The spacing between atoms in a crystal lattice can be measured in angstrom.
8. The X-ray diffraction patterns are analyzed using the angstrom measurement.
9. The bond length between carbon atoms is about 1.54 angstrom.
10. An angstrom is a very small unit, useful in nanotechnology.
11. The wavelength of X-rays is typically a few angstrom long.
12. Researchers reported findings at a precision of less than one angstrom.
13. Atoms are often represented as spheres with diameters on the order of angstrom.
14. The study of atomic structures often involves calculations in angstrom.
15. The size of DNA is usually measured in angstrom.
16. The angstrom allows scientists to quantify molecular distances precisely.
17. Light emitted during electronic transitions is measured in angstrom.
18. The concept of angstrom is fundamental in solid-state physics.
19. Understanding molecular interactions requires knowledge of angstrom measurements.
20. The angstrom is named after the Swedish physicist Anders Jonas Ångström.
21. In spectroscopy, different wavelengths are recorded in angstrom.
22. The distance between the nucleus and the electrons is often in the range of angstrom.
23. The angstrom is widely used in materials science.
24. Many physical constants are expressed in terms of angstrom.
25. The electron cloud around an atom extends to several angstrom.
26. The resolution of an electron microscope can reach a few angstrom.
27. The energy levels of electrons in atoms can be calculated using angstrom.
28. The effective range of intermolecular forces is typically a few angstrom.
29. The angstrom is particularly useful for studying nanostructures.
30. The bonding between atoms is often characterized in angstrom.
31. The scattering of light can reveal structures on the angstrom scale.
32. The precision of angstrom measurements is essential for many scientific experiments.
33. The atomic radius of oxygen is approximately 0.73 angstrom.
34. The angstrom is essential for calculating reaction rates in chemistry.
35. The measurement of crystal defects can be performed at the angstrom level.
36. The atomic spacing in metals is generally around 2 to 3 angstrom.
37. The angstrom can be used to describe the size of nanoparticles.
38. In astrophysics, the brightness of stars can be measured in angstrom.
39. The interaction between photons and electrons is studied using angstrom.
40. The angstrom scale is relevant in the context of quantum dots.
41. The binding energy of molecules can be estimated in angstrom.
42. The analysis of protein structures often involves measurements in angstrom.
43. The angstrom unit is crucial in the field of nanomedicine.
44. Many chemical reactions occur at distances measured in angstrom.
45. The electron affinity of atoms is often expressed in terms of angstrom.
46. The angstrom is a key unit in developing new materials.
47. The dimensions of viruses can be represented in angstrom.
48. The angstrom is integral to the study of semiconductor devices.
49. The thermal vibrations of atoms can be analyzed at the angstrom level.
50. The charge distribution in molecules can be visualized in angstrom.
51. The concept of an angstrom is pivotal in molecular biology.
52. The distance between molecular orbitals is typically measured in angstrom.
53. The angstrom can be used in the design of optical instruments.
54. The size of macromolecules is often assessed in angstrom.
55. Understanding the angstrom scale is essential for nanotechnology applications.
56. The angstrom allows for high-resolution imaging of atomic arrangements.
57. The spacing of atoms in a crystal can be described with angstrom.
58. The phenomenon of diffraction is often analyzed at the angstrom level.
59. The angstrom is a standard unit in crystallography.
60. The atomic interactions that occur at the angstrom scale are fundamental to chemistry.
61. The analysis of molecular dynamics often involves angstrom measurements.
62. The angstrom is relevant in the context of molecular simulations.
63. The atomic diameter of gold is about 1.44 angstrom.
64. The force between two atoms is significant at approximately 2 angstrom.
65. The angstrom is often used in theoretical calculations in physics.
66. The properties of materials can change at the angstrom scale.
67. The angstrom provides a means to quantify atomic interactions.
68. The precision of instruments measuring in angstrom is critical.
69. Many scientific discoveries rely on measurements in angstrom.
70. The angstrom is vital for the advancement of photonics.
71. The study of crystal structures relies heavily on angstrom measurements.
72. The spacing between layers in graphite is about 3.35 angstrom.
73. The angstrom is used to define the scale of nanostructures.
74. The energy transitions in atoms can be discussed in terms of angstrom.
75. The angstrom scale is important in the design of nanomaterials.
76. The interaction range in biological systems is often measured in angstrom.
77. The angstrom is a common unit in the field of optics.
78. The concept of angstrom is critical for understanding chemical bonding.
79. The resolution of atomic force microscopy is typically within a few angstrom.
80. The angstrom is essential for the characterization of nanocrystals.
81. The changes in bond length can be observed in angstrom.
82. The angstrom unit is fundamental in the study of photochemistry.
83. The atomic structure of proteins is often analyzed in angstrom.
84. The angstrom plays a crucial role in quantum chemistry.
85. The angstrom is utilized in the study of superconductors.
86. The effective diameter of nanoparticles can be expressed in angstrom.
87. New techniques in microscopy allow for imaging at the angstrom scale.
88. The angstrom is commonly used in laser technology.
89. The measurement of intermolecular distances is often in angstrom.
90. The angstrom is a key unit in the field of nanotechnology.
91. The properties of thin films are typically characterized in angstrom.
92. The angstrom allows for a detailed understanding of molecular structures.
93. The distances involved in chemical reactions can be measured in angstrom.
94. The angstrom is used in the development of advanced materials.
95. The interaction of light with matter can be analyzed at the angstrom level.
96. The angstrom unit is crucial for understanding the properties of nanostructures.
97. The atomic interactions in liquids can be described using angstrom.
98. The angstrom is often referenced in scientific literature.
99. The wavelength of ultraviolet light is often measured in angstrom.
100. The angstrom is essential for precise scientific communication.