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100 Examples of sentences containing the noun "anode"

Definition

An anode is an electrode through which electric current flows into a polarized electrical device. In electrochemical cells, it is the positive electrode where oxidation occurs. In a vacuum tube or diode, the anode is the positively charged electrode that attracts electrons from the cathode.

Synonyms

  • Positive electrode
  • Oxidation electrode
  • Cathodic counterpart (in reference to its function)

Antonyms

  • Cathode
  • Negative electrode

Examples

  1. The technician explained how the anode functioned in the battery system.
  2. In the experiment, we needed to connect the anode to the positive terminal.
  3. The anode was corroded, leading to a decrease in efficiency.
  4. We observed the reaction at the anode during the electrolysis process.
  5. The design of the anode influenced the overall performance of the circuit.
  6. The current flowed towards the anode in the electrochemical setup.
  7. He adjusted the position of the anode to optimize the reaction.
  8. The anode material must be selected based on conductivity and durability.
  9. We measured the voltage drop across the anode during the test.
  10. The anode is critical for the function of the electrolytic cell.
  11. The charge on the anode attracted the electrons from the circuit.
  12. The anode emits positive ions when the device is activated.
  13. The research focused on improving the efficiency of the anode.
  14. The anode and cathode work together to complete the circuit.
  15. A faulty anode can lead to malfunction in electronic devices.
  16. The anode was coated with a protective layer to prevent oxidation.
  17. He replaced the damaged anode in the old battery.
  18. The anode is essential for the electroplating process.
  19. The output current was measured at the anode terminal.
  20. The anode reaction was slower than anticipated.
  21. The experiment demonstrated the relationship between the anode and cathode.
  22. An increase in temperature affected the performance of the anode.
  23. The anode was positioned strategically for better conductivity.
  24. She explained how the anode contributes to the electric circuit.
  25. The anode plays a vital role in the functioning of the solar cell.
  26. The voltage at the anode was significantly higher than at the cathode.
  27. The design of the anode has been improved for better performance.
  28. He was tasked with testing the anode of the new prototype.
  29. The anode must be properly insulated to prevent short circuits.
  30. The chemical reaction at the anode was exothermic.
  31. The anode generated a strong magnetic field during operation.
  32. The technician monitored the anode for any signs of wear.
  33. The anode material was chosen for its lightweight properties.
  34. The configuration of the anode affected the overall efficiency.
  35. The current density at the anode was measured during the experiment.
  36. The anode was built to withstand high temperatures.
  37. During charging, ions move towards the anode.
  38. The anode plays a critical role in the filtration system.
  39. The design flaw in the anode led to the device's failure.
  40. He studied the effects of different materials on the anode.
  41. The anode and cathode must be distinct to avoid short-circuiting.
  42. The anode was tested for durability under extreme conditions.
  43. The anode was responsible for the majority of the chemical reactions.
  44. The voltage at the anode increased as the current rose.
  45. He created a model to illustrate the function of the anode.
  46. The anode was connected directly to the power supply.
  47. The efficiency of the anode was determined through testing.
  48. The anode must be compatible with the electrolyte used.
  49. The anode was the focal point of their research.
  50. The technician calibrated the equipment to measure the anode output.
  51. The anode produced a significant amount of heat.
  52. The anode reaction released electrons into the circuit.
  53. The anode was inspected for any signs of degradation.
  54. The placement of the anode is crucial for effective operation.
  55. The anode was made from a high-purity material to enhance performance.
  56. The study examined the relationship between the anode and overall efficiency.
  57. The anode was prone to oxidation due to its material properties.
  58. The current flows from the cathode to the anode.
  59. The anode was replaced as part of routine maintenance.
  60. The anode showed improved performance with the new design.
  61. The anode was the site of the most significant chemical changes.
  62. The anode was carefully calibrated for optimal performance.
  63. The technician focused on improving the anode design.
  64. The anode was the weak point in the electrical circuit.
  65. They measured the current flowing to the anode.
  66. The anode was crucial for the reaction to proceed.
  67. The anode had to be cleaned regularly to maintain efficiency.
  68. The anode exhibited unexpected behavior during testing.
  69. The anode material was subjected to rigorous testing.
  70. The anode was connected to the main power supply.
  71. He documented the changes in the anode over time.
  72. The anode was designed to minimize resistance.
  73. The performance of the anode directly impacted the overall system.
  74. The anode was subjected to various environmental conditions during the study.
  75. The anode was tested for electrical conductivity.
  76. The anode design was pivotal for the project's success.
  77. The current density at the anode was a key factor in the experiment.
  78. The anode was critical for the electrochemical reaction to occur.
  79. They compared the efficiency of different anode materials.
  80. The anode was the focus of their latest research paper.
  81. The anode was prone to failures if not properly maintained.
  82. The anode produced a significant electric field.
  83. The output current from the anode was stable throughout the test.
  84. The anode and cathode were aligned for optimal performance.
  85. The anode was found to be the most challenging component to test.
  86. The anode was replaced to enhance the system's performance.
  87. The design of the anode was optimized for longevity.
  88. The anode must be monitored for any signs of failure.
  89. The anode showed signs of wear and needed to be replaced.
  90. The anode was analyzed for its electrochemical properties.
  91. The placement of the anode had a direct impact on the results.
  92. The anode was essential for achieving the desired output.
  93. The anode was insulated to prevent accidental short circuits.
  94. The effectiveness of the anode was tested under various loads.
  95. The anode was carefully engineered for maximum efficiency.
  96. The anode was the main subject of their investigation.
  97. They recorded the voltage readings at the anode during the experiment.
  98. The anode was designed to be both lightweight and durable.
  99. The integrity of the anode was vital for the experiment's success.
  100. The anode was the last component they tested before finalizing the design.
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