yes they do ;) the skin for the temperature :)
A barometer is used to detect changes in atmospheric pressure, which can signal a change in weather. It measures the pressure exerted by the atmosphere and can provide an indication of incoming weather systems.
To measure CO2 levels accurately in the environment, use a device called a CO2 sensor. This sensor can be placed in the air to detect and quantify the amount of CO2 present. The data collected by the sensor can then be analyzed to determine the concentration of CO2 in the environment.
The term that describes a slow change in an environment is "gradual change" or "ecological succession." This process involves a series of predictable changes in the composition and structure of an ecosystem over time.
Deforestation is a physical change that has harmful effects on the environment. It leads to loss of biodiversity, disruption of ecosystems, increase in greenhouse gas emissions, and soil erosion.
When there is a change in the environment, it typically indicates a transfer of energy, resources, or organisms. This can include things like migration of species, alteration of food chains, or movement of pollutants from one area to another. These transfers play a key role in shaping ecosystem dynamics and can have long-lasting impacts on the environment.
The correct order of a homeostatic control system is: Stimulus - a change occurs in the internal or external environment. Receptor - sensors detect the change in the environment. Control center - processes the information and determines the appropriate response. Effector - carries out the necessary response to restore homeostasis.
Mechanoreceptors are the type of sensory receptor used to detect a stimulus in the special sense of hearing. These receptors respond to mechanical stimuli such as vibrations in the environment that are produced by sound waves.
Receptors are proteins that detect specific stimuli, such as chemicals or light, and trigger cellular responses. The receptor's structure allows it to bind to the stimulus molecule, leading to a conformational change that initiates a signaling cascade within the cell. This process enables cells to sense and respond to their environment.
to detect stimulus
Receptor cells are specialized cells that detect specific stimuli, such as light, sound, touch, taste, and smell. They convert these stimuli into electrical signals that can be interpreted by the brain, allowing us to perceive our environment and respond to it accordingly.
Cells that detect change are called sensory cells or receptors. These specialized cells are responsible for detecting various stimuli such as light, sound, temperature, pressure, and chemicals, and transmitting this information to the brain for processing.
Eyes: The sensory receptor in the eyes is the photoreceptor cell, specifically the rods and cones, which detect light and color. Nose: The sensory receptor in the nose is the olfactory receptor, located in the olfactory epithelium, which detects odor molecules. Tongue: The sensory receptors in the tongue are taste buds, which contain taste receptor cells that detect different tastes like sweet, salty, bitter, sour, and umami. Skin: The sensory receptors in the skin include mechanoreceptors (detect touch and pressure), thermoreceptors (detect temperature), nociceptors (detect pain), and proprioceptors (detect body position and movement).
Rods
Receptor
The receptor!
The Receptor senses changes in the environment and responds by sending information to the Control Center along the Afferent.
Sensory (afferent) neurons