100 Examples of sentences containing the noun "amperes"

Definition

"Amperes" is a unit of electric current in the International System of Units (SI), symbolized as "A". It measures the flow of electric charge and is defined as one coulomb per second. In a broader context, "amperes" may also refer to the amount of electric current flowing through a conductor.

Synonyms

• Amps
• Electrical current (in context)

Antonyms

• Volts (in context)
• Ohms (in context)

Examples

1. The circuit amperes when the switch is turned on.
2. The electrician measured the amperes flowing through the wire.
3. The device requires a specific number of amperes to function properly.
4. Understanding how many amperes a system uses can help in energy management.
5. The generator produces a maximum of 50 amperes.
6. He adjusted the settings to increase the amperes in the circuit.
7. The battery supplies up to 20 amperes of current.
8. It is essential to know the amperes to avoid overheating components.
9. The multimeter displayed the amperes accurately.
10. The technician reported that the system was drawing too many amperes.
11. He calculated the total amperes used by the appliances in the house.
12. The power supply can deliver 30 amperes continuously.
13. The safety device trips when amperes exceed the limit.
14. She was surprised at how many amperes the old equipment consumed.
15. The training covered how to measure amperes in a circuit.
16. The lab experiment required a precise number of amperes.
17. They decided to upgrade the wiring to handle more amperes.
18. The surge protector can handle up to 15 amperes.
19. Each outlet is rated for a maximum of 12 amperes.
20. Knowing the amperes can help in troubleshooting electrical issues.
21. The team designed the circuit to limit the amperes to safe levels.
22. The LED light requires only a few amperes to operate.
23. The specifications listed the maximum amperes for the appliance.
24. The current draw was measured in amperes during testing.
25. The formula for calculating power involves both volts and amperes.
26. He replaced the fuse with one rated for higher amperes.
27. The electrician warned about the dangers of high amperes.
28. The energy meter tracks amperes and voltage usage.
29. The inverter can handle up to 100 amperes of current.
30. During the experiment, they recorded the amperes at various intervals.
31. The LED circuit only requires a few amperes to light up.
32. He was puzzled by the fluctuating amperes in the system.
33. The lab's power strip supports multiple devices with a total of 15 amperes.
34. It’s crucial to ensure that the amperes do not exceed the equipment's limits.
35. The load was balanced to distribute the amperes evenly.
36. The current measured in amperes was too high for the circuit to handle.
37. She monitored the amperes during the experiment for safety.
38. The technician explained how to calculate the required amperes for the setup.
39. Each circuit breaker is designed to trip at specific amperes.
40. The power consumption was calculated based on the amperes and voltage.
41. Knowing how many amperes a device draws is essential for energy management.
42. The schematic diagram indicated the flow of amperes through the circuit.
43. The new appliance operates efficiently at low amperes.
44. They designed a safety feature to cut off amperes in case of overload.
45. The electric vehicle’s charging station supports up to 40 amperes.
46. The maintenance team checked the amperes as part of their routine inspection.
47. The surge in amperes caused the circuit to fail.
48. The battery’s output was rated in amperes.
49. The workshop provided training on how to read amperes on a meter.
50. The device's efficiency improved when operating at lower amperes.
51. The specifications indicated that the motor operates at 15 amperes.
52. It’s important to use wire rated for the maximum amperes expected.
53. The technician adjusted the settings to reduce the amperes.
54. The lab had strict safety protocols regarding high amperes.
55. The electric heater draws significant amperes when in use.
56. The circuit design limited the amperes to prevent overheating.
57. The power outage was traced back to a spike in amperes.
58. The current passing through the circuit was measured in amperes.
59. The manual provided guidelines for handling high amperes safely.
60. The load tester measured the amperes output accurately.
61. The technician found a short circuit that increased the amperes dramatically.
62. The power supply unit regulates the amperes delivered to the components.
63. The electrical panel was upgraded to handle higher amperes safely.
64. The lights flickered due to fluctuating amperes.
65. The new wiring was installed to support more amperes.
66. The control system monitored the amperes in real time.
67. The electric motor requires a steady supply of amperes.
68. The fuse blew because it couldn't handle the amperes.
69. The charge controller adjusts the amperes based on battery needs.
70. He was surprised to see how many amperes the heater used.
71. The electrical code specifies the maximum amperes for safety.
72. The generator was capable of producing 100 amperes.
73. The circuit was designed to limit the amperes to 10.
74. The power meter displayed the amperes consumed by the appliance.
75. The workshop included hands-on practice measuring amperes.
76. The high amperes caused the wires to heat up.
77. The amplifier requires a minimum of 5 amperes to operate.
78. The experiment measured the relationship between volts and amperes.
79. The current should not exceed the rated amperes for the device.
80. The technician explained the importance of monitoring amperes.
81. The project required careful calculations of amperes.
82. The safety relay cuts off power at specific amperes.
83. The circuit’s resistance affects the flow of amperes.
84. The home’s electrical system was evaluated for its amperes capacity.
85. The surge protector can safely handle up to 20 amperes.
86. The lab's equipment was rated for various amperes levels.
87. The output of the solar panel was measured in amperes.
88. The team was trained to handle high amperes safely.
89. The data logger recorded the amperes throughout the test.
90. The current flow was steady at 12 amperes.
91. The electrician replaced the circuit breaker with one rated for higher amperes.
92. The technician conducted tests to ensure the amperes were within limits.
93. The project involved calculating the total amperes for multiple devices.
94. The power supply needed to be upgraded to handle more amperes.
95. The electric bike’s charger requires 2 amperes.
96. The light fixture was designed for low amperes to save energy.
97. The equipment malfunctioned due to excessive amperes.
98. The electrical inspector checked the amperes before approving the installation.
99. The laboratory used a variety of equipment rated for different amperes.
100. The technician noted the amperes fluctuated during operation.