100 Examples of sentences containing the common noun "ohm"

Definition

"Ohm" is a common noun that refers to the unit of electrical resistance in the International System of Units (SI). It is defined as the amount of resistance that allows one ampere of current to flow when one volt of electrical potential is applied. The term is named after the German physicist Georg Simon Ohm.

Synonyms

• Resistance unit
• Electrical resistance
• Ω (symbol for Ohm)

Antonyms

• Volt (unit of electrical potential)
• Ampere (unit of electric current)

Examples

1. The circuit had a resistance of Ohm.
2. The multimeter can measure the Ohm of various components.
3. When we calculated the Ohm, we found it was too high.
4. You need to convert the Ohm into kilohms for the calculation.
5. The professor explained how to measure Ohm accurately.
6. He adjusted the resistor to achieve the desired Ohm.
7. The device runs efficiently at 5 Ohm.
8. Understanding Ohm is crucial for electrical engineering.
9. We learned that 1 Ohm corresponds to 1 volt per ampere.
10. The Ohm is named after a significant figure in physics.
11. She measured the Ohm of the wire before connecting it.
12. The standard unit of Ohm is represented by the Greek letter Omega.
13. A lower Ohm value indicates better conductivity.
14. The technician checked the Ohm readings on the equipment.
15. The total Ohm in the circuit determined its overall resistance.
16. The Ohm law states that voltage equals current times resistance.
17. He struggled to understand the concept of Ohm at first.
18. The resistor was rated at 10 Ohm.
19. They used a potentiometer to adjust the Ohm level.
20. An increase in Ohm can lead to overheating.
21. The experiment aimed to demonstrate the effects of different Ohm values.
22. The Ohm measurement was critical for the project's success.
23. The lab session focused on calculating Ohm in series circuits.
24. She explained how temperature affects the Ohm of materials.
25. The Ohm symbol can be found on many electronic components.
26. We need to ensure that the Ohm ratings match the specifications.
27. He was fascinated by how the Ohm affects current flow.
28. In some cases, the Ohm can fluctuate under load.
29. They recorded the Ohm readings for future reference.
30. The Ohm value can vary between different materials.
31. The circuit board was designed to handle low Ohm resistance.
32. He calculated the total Ohm in the parallel circuit.
33. The formula for calculating Ohm is straightforward.
34. She presented her findings on the importance of Ohm in electronics.
35. Understanding Ohm is essential for anyone in the field of physics.
36. The display showed an Ohm reading of 50.
37. A faulty component can increase the Ohm unexpectedly.
38. The project's success depended on accurate Ohm measurements.
39. They replaced the resistor to achieve the correct Ohm.
40. He was surprised by how the Ohm changed with temperature.
41. The Ohm is a basic concept in electrical engineering.
42. The lecture covered the relationship between Ohm, voltage, and current.
43. She used a digital meter to measure the Ohm of the circuit.
44. The Ohm unit is fundamental in understanding electrical systems.
45. They highlighted the significance of Ohm in their research.
46. The experiment required precise Ohm measurements.
47. The Ohm rating of the component was critical for safety.
48. Electrical engineers often work with various Ohm values.
49. The Ohm was measured across different sections of the circuit.
50. A higher Ohm indicates a greater resistance to current flow.
51. He learned how to calculate the Ohm for different materials.
52. The Ohm unit is widely recognized in the scientific community.
53. The design needed to account for the total Ohm in the circuit.
54. They conducted tests to determine the Ohm of different wires.
55. A clear understanding of Ohm is necessary for troubleshooting.
56. The Ohm value can be affected by physical changes in the material.
57. He performed calculations to find the equivalent Ohm in the circuit.
58. The Ohm is crucial in ensuring electrical devices operate safely.
59. The project required a thorough analysis of the Ohm measurements.
60. She noted the Ohm readings during the experiment.
61. The Ohm symbol is commonly used in electrical schematics.
62. The team discussed the implications of high Ohm values.
63. The Ohm meter was essential for their research.
64. He calibrated the device to ensure accurate Ohm readings.
65. The Ohm law was a key topic in their physics class.
66. The understanding of Ohm helps in designing efficient circuits.
67. They illustrated the effects of changing Ohm on the circuit.
68. The Ohm reading was higher than expected, indicating a problem.
69. He explained the significance of measuring Ohm in real-time.
70. The experiment successfully demonstrated the concept of Ohm.
71. The Ohm can be influenced by various factors, including temperature.
72. She presented a paper on the applications of Ohm in modern technology.
73. The Ohm measurements were crucial for the safety assessment.
74. He was intrigued by the relationship between Ohm and conductivity.
75. The Ohm unit is often used alongside volts and amperes.
76. The calculations showed a consistent Ohm across the board.
77. The engineer recommended using a lower Ohm resistor.
78. The Ohm value is vital for understanding circuit behavior.
79. They agreed to monitor the Ohm closely during the test.
80. The Ohm of the circuit was within acceptable limits.
81. He discovered a method to reduce the Ohm in the design.
82. The Ohm was calculated based on the voltage and current in the circuit.
83. The team worked together to record the Ohm data.
84. He found the Ohm of the resistor to be 100.
85. The Ohm reading was consistent throughout the experiment.
86. They needed to verify the Ohm before proceeding.
87. The Ohm of each component was labeled clearly.
88. He wrote an article explaining the significance of Ohm in design.
89. The Ohm was essential in determining the circuit's efficiency.
90. They discussed how to minimize the Ohm in their project.
91. The final Ohm measurements confirmed their hypothesis.
92. She highlighted the critical role of Ohm in circuit design.
93. The Ohm was tested under various conditions.
94. He presented his findings related to Ohm and energy loss.
95. A thorough understanding of Ohm leads to better design practices.
96. The experiment confirmed the expected Ohm values.
97. The Ohm was a central topic in their electrical engineering course.
98. They compared the Ohm between different materials.
99. The Ohm was crucial for ensuring the circuit's stability.
100. He emphasized the importance of understanding Ohm in his lecture.