100 Examples of sentences containing the common noun "effector"

Definition

Effector (noun): In biological and physiological contexts, an effector refers to a muscle or gland that produces a response to a stimulus. In electronics, it can refer to a device that causes a change in physical conditions, often as part of a control system.

Synonyms

• Producer
• Generator
• Actuator
• Muscle (in biological contexts)
• Gland (in biological contexts)
• Controller (in electronics)
• Apparatus

Antonyms

• Stimulus
• Inhibitor
• Receptor
• Sensor

Examples

1. The nervous system sends signals to the effector to initiate movement.
2. In response to the hormone, the gland acts as an effector to release necessary enzymes.
3. The robotic arm functions as an effector in the automated assembly line.
4. When the temperature drops, the heating system is the effector that raises the temperature.
5. The muscle fibers contract, acting as an effector to facilitate motion.
6. The brain interprets signals and commands the effector to respond accordingly.
7. An effector device can regulate the flow of electricity in circuits.
8. The immune system’s effectors can target and eliminate pathogens.
9. The thermostat serves as an effector in maintaining room temperature.
10. The effector in this experiment was a chemical that triggered a reaction.
11. The heart acts as an effector by pumping blood throughout the body.
12. An effector can be a simple switch that activates a larger system.
13. The effector mechanism in the body helps maintain homeostasis.
14. Sensors relay information to the effector to initiate a response.
15. As an effector, the muscle responds to the signals from the nervous system.
16. The effector in the device translates electrical signals into physical movement.
17. In a feedback loop, the effector adjusts its output based on the input.
18. The effector plays a crucial role in the body’s reflex actions.
19. The environmental controls serve as an effector to adjust lighting and temperature.
20. The effector in this circuit is responsible for activating the alarm system.
21. The role of the effector is essential for executing the desired outcome.
22. The effector in the experiment was calibrated for maximum efficiency.
23. Our muscles act as effectors when we respond to external stimuli.
24. The robotic system uses multiple effectors to perform complex tasks.
25. The effector in the control system ensures precise movements.
26. Understanding the effector pathways can help in developing better treatments.
27. The effector in the neural pathway is critical for reflex actions.
28. The body relies on different types of effectors for various functions.
29. The effector of the enzyme helps catalyze the reaction.
30. The device’s effector can be adjusted for different operational modes.
31. The effector mechanism can amplify the response to a stimulus.
32. This research focuses on the role of effectors in gene expression.
33. The effector in the model simulates real-world conditions.
34. The effector system can operate autonomously in response to changes.
35. The muscle acts as an effector, contracting in response to nerve signals.
36. The effector is designed to respond quickly to environmental changes.
37. The effector devices in the lab are state-of-the-art technology.
38. The biological effector plays a role in the immune response.
39. The effector in this application is a relay that controls the motor.
40. The effector must be tested for reliability under various conditions.
41. The effector is essential for the successful completion of the task.
42. The response time of the effector is critical for safety systems.
43. The effector is activated when the threshold is reached.
44. The interplay between the sensor and effector is vital for feedback control.
45. The effector in the neural circuit helps transmit information rapidly.
46. The effector can be manually overridden in case of emergencies.
47. The design of the effector focuses on minimizing energy consumption.
48. The effector receives input from multiple sources and integrates the data.
49. The effector can be programmed to execute predefined actions.
50. The role of the effector is to translate commands into physical actions.
51. The effector responds to the biochemical signals in the body.
52. The effector can switch modes based on user input.
53. The interaction between the effector and the environment is complex.
54. The effector in the experiment was monitored for accuracy.
55. The effector mechanism is crucial for maintaining system stability.
56. The body's muscles and glands serve as effectors in physiological processes.
57. The effector must be calibrated to ensure proper function.
58. The effector can be influenced by various factors, including hormones.
59. The effector provides the necessary output to complete the task.
60. The effector interacts with the environment to produce changes.
61. The feedback loop involves the effector adjusting its output.
62. The effector can be activated remotely for convenience.
63. The study examined how different effectors respond to stimuli.
64. The effector in the system was designed for rapid response.
65. The effector must be reliable to ensure safety in operations.
66. The effector contributes to the overall efficiency of the system.
67. The relationship between the receptor and effector is crucial for signaling.
68. The effector can function independently or as part of a larger network.
69. The effector is responsible for executing the control commands.
70. The effector can be programmed to adapt to changing conditions.
71. The role of the effector is to ensure the system operates as intended.
72. The effector in the device was designed for user-friendly operation.
73. The effector quickly adjusts its output based on feedback.
74. The effector plays a crucial role in the body's response mechanisms.
75. The effector is the final component in the control loop.
76. The effector can take various forms, such as mechanical or chemical.
77. The effector knows how to respond when activated by a signal.
78. The effector can be tested for performance under stress conditions.
79. The effector translates signals into meaningful actions.
80. The effector is integral to the system's overall functionality.
81. Understanding the dynamics of the effector is essential for optimization.
82. The effector can be adjusted for precision tasks.
83. The biological effector is essential for movement and reaction.
84. The effector must synchronize with other components for effective operation.
85. The effector is designed to perform under various environmental conditions.
86. The electrical effector controls the flow of current in circuits.
87. The effector can be influenced by external factors, such as temperature.
88. The feedback from the effector is used to refine the system's performance.
89. The effector plays a significant role in biological signaling pathways.
90. The effector must be maintained regularly for optimal performance.
91. The effector is responsible for executing the programmed tasks.
92. The design of the effector focuses on enhancing user experience.
93. The effector can operate in real-time, responding instantly.
94. The effector interacts with various inputs to produce outputs.
95. The effector must be thoroughly tested before deployment.
96. The effector influences the overall behavior of the system.
97. The effector is crucial for achieving the desired outcomes.
98. The effector can be activated by different types of signals.
99. The efficiency of the effector determines the success of the process.
100. The effector is the component that translates input into action.