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100 Examples of sentences containing the common noun "millimeter"

Definition

A millimeter is a unit of length in the metric system, equal to one thousandth of a meter (0.001 m). It is commonly used to measure small distances or dimensions, particularly in fields such as engineering, manufacturing, and science.

Synonyms

  • mm (abbreviation)
  • millimetre (British English spelling)

Antonyms

  • kilometer
  • meter
  • mile

Examples

  1. The piece of wood was cut to exactly millimeter lengths.
  2. To ensure accuracy, the measurements were taken within a millimeter of each other.
  3. The specifications required the gap to be less than a millimeter.
  4. He adjusted the dial by a single millimeter to achieve the desired setting.
  5. The thickness of the paper was only a few millimeters.
  6. In this project, we need to measure every millimeter carefully.
  7. The surgeon required precision within a millimeter for the operation.
  8. The difference between the two samples was barely a millimeter.
  9. I used a ruler to measure the millimeter increments.
  10. The sensor can detect changes of less than a millimeter.
  11. She moved the object just a millimeter to the left.
  12. The gap between the two walls was a mere millimeter.
  13. He was off by a millimeter in his calculations.
  14. The device can measure up to a millimeter with high precision.
  15. It is important to maintain a millimeter tolerance in manufacturing.
  16. The laser cut through the material with precision of a millimeter.
  17. She adjusted the lens by a millimeter to improve focus.
  18. The impact was measured in millimeters per second.
  19. The gauge reads measurements in millimeter increments.
  20. A millimeter can be a significant measurement in scientific experiments.
  21. The change in height was less than a millimeter.
  22. The dial is marked with millimeter indicators for easy reading.
  23. Adjusting the height by a single millimeter made a big difference.
  24. The design required the fabric to be cut within a millimeter of the line.
  25. The engineer noted the dimensions in millimeter format.
  26. The error margin was set to no more than a millimeter.
  27. The print resolution was measured in dots per millimeter.
  28. A hair is approximately one millimeter in diameter.
  29. The bolt was tightened to a millimeter specification.
  30. The adjustment must be within a millimeter for optimal performance.
  31. The ruler measured in both inches and millimeters.
  32. The thickness of the metal sheet was just over a millimeter.
  33. The experiment required a millimeter of precision in measurements.
  34. The film strip was cut to a millimeter for editing.
  35. The engineer highlighted the importance of millimeter accuracy.
  36. The gap should not exceed a millimeter for proper sealing.
  37. The distance was measured in millimeters to ensure accuracy.
  38. The sheet was perforated every millimeter for easy tearing.
  39. The device can measure temperature changes within a millimeter.
  40. The specifications list the tolerances in millimeters.
  41. The thickness of the insulation was one millimeter.
  42. You could see the difference of a millimeter in the design.
  43. It was critical to maintain the millimeter standard in the prototype.
  44. Each cut was made with precision to the millimeter.
  45. A millimeter can make a big difference in precision instruments.
  46. The gap was adjusted to a perfect millimeter.
  47. The design plans specified every millimeter of space.
  48. The measurement needed to be precise to the millimeter.
  49. The tolerances were set at plus or minus a millimeter.
  50. The laser equipment is calibrated to a millimeter scale.
  51. Each piece was crafted to fit within a millimeter of the specifications.
  52. The repair required adjustments to within a millimeter.
  53. The scale reads up to ten millimeters.
  54. The piece was too long by a millimeter.
  55. The adjustment involved moving it by a millimeter.
  56. Precision instruments require a millimeter of accuracy.
  57. The gap between the two components was less than a millimeter.
  58. Measurements were taken every millimeter along the line.
  59. The product specifications call for a millimeter tolerance.
  60. The frame was adjusted by a single millimeter for alignment.
  61. The lens was focused to a millimeter accuracy.
  62. The error margin was calculated to be less than a millimeter.
  63. The dimensions were critical down to the millimeter.
  64. The gap was reduced to a millimeter using shims.
  65. The two parts must align within a millimeter.
  66. The dial showed a millimeter of difference.
  67. The printout had measurements in millimeters.
  68. A difference of a millimeter can affect the outcome.
  69. The frame's dimensions were adjusted by a millimeter.
  70. The machine operates with a millimeter precision.
  71. The manufacturing process requires measurements to the millimeter.
  72. The design was altered by a mere millimeter.
  73. The technician measured the distance to the millimeter.
  74. The report noted that the error was just one millimeter.
  75. The component was manufactured to within a millimeter of specifications.
  76. The tolerance levels were set to a millimeter.
  77. The height was adjusted by a millimeter to fit the specifications.
  78. The thickness was measured to be one millimeter.
  79. The installation required adjustments within a millimeter.
  80. The measurements are crucial down to the millimeter.
  81. The piece was cut with a precision of a millimeter.
  82. The laser cutter operates within a millimeter accuracy.
  83. The dimensions were noted in millimeters on the blueprint.
  84. The tool was calibrated to measure in millimeter increments.
  85. Each adjustment was made with a millimeter precision.
  86. The drill bit was set to a millimeter depth.
  87. The width of the gap was measured to be a millimeter.
  88. The engineer emphasized the need for millimeter precision.
  89. The distance between the two points was less than a millimeter.
  90. The calibration was off by a millimeter.
  91. The part needed to fit with a millimeter tolerance.
  92. The specifications mentioned that each piece should be cut to a millimeter.
  93. The thickness of the material was just under a millimeter.
  94. The adjustments were made within a millimeter of accuracy.
  95. The measurements were taken every millimeter to ensure consistency.
  96. The calibration of the tool was set to a millimeter.
  97. The gap needed to be less than a millimeter for proper fit.
  98. The technician checked the alignment to the millimeter.
  99. The piece was off by a mere millimeter.
  100. The laser ensures cuts are made with a millimeter precision.
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