Sensory Receptor Classification by Modality - Video Tutorials & Practice Problems
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concept
Sensory Receptor Classification by Modality
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All right. So in this video, we're going to be talking about how we can classify sensory receptors based on the type of stimulus that they detect or their modality. And using this this classification method, we end up with five types of sensory receptors. So first are mecano receptors and these respond to mechanical force. So for example, something like pressure or vibration would be mechanical forces, then we have thermo receptors, which I would bet just based on the name, you could guess that these are going to be responding to changes in temperature, important to note here that these respond to temperature changes, not just temperature itself. Next, we have photoreceptors, those respond to light stimuli. And we have chemo receptors which respond to chemicals. So those could be chemicals in the air. For example, the molecules that we can smell. Um this could be something that we can taste. So if food has molecules, we can taste those molecules, right? This could also be coming from fluids in the body. Um So for example, blood, and then lastly, we have no c acceptors and no C acceptors respond to damaging stimuli causing pain. So these are sometimes called pain receptors. And no C acceptors are a bit unique in that they can actually respond to different types of stimuli. So no c acceptors can respond to temperature, they can respond to pressure, they can respond to chemicals. The what what is kind of special about them is that they're only going to respond to stimuli that are strong or excessive enough to cause damage or injury to our body. So for example, if um the heat is hot enough to burn us, if the cold is cold enough to damage our skin, if the chemical is irritating, if the pressure is excessive enough to cause harm, that is when those noy acceptors will become active and send up signals to the brain and the brain will then perceive that stimuli as a painful one. All right. So those are the five types of sensory receptors when we classify them by stimulus type. And I will see you guys in our next video. Bye bye.
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example
Sensory Receptor Classification by Modality Example 1
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All right. So this example asks us if a receptor is rapidly adapting, it will respond maximally to a stimulus when it's first detected. And then the response will decrease if the stimulus is maintained, which type of receptor is least likely to be rapidly adapting. They kind of put that. In other words, if a receptor is rapidly adapting, what happens is when it first detects a stimulus, it has its normal response. And then if that stimulus is maintained and constant and doesn't change the receptor, basically just adapts and stops responding to it altogether. That's important for a couple of reasons. One, we have a ton of information getting sent to our brain all the time. We don't want excessive and unnecessary information, muddying all that up and getting sent up there as well. It just adds to cognitive load that we don't need to add to. And also we don't want our receptors and our neurons to just be constantly getting used, they would get exhausted, right? They need little breaks. So they don't want to be constantly um firing if they don't need to. So just looking at our answer choices and thinking about this kind of conceptually from an evolutionary perspective right away, I am drawn to no C sectors because we don't actually want to adapt to pain signals, right? We might want to, but that's not actually safe. So imagine, for example, if I broke my arm, if my receptors adapted quickly, what would happen is they would say, oh ouch and then they would adapt and that pain signal would be gone. But then I could use my arm in a way that exacerbates the injury and me even more. What you need is for those, those no C seor to keep signaling and saying, girl, you are in pain and that way you don't injure yourself further or exacerbate any injuries that you have. So we don't want pain receptors to be rapidly adapting. Looking at all these other ones to give you kind of quick examples to show you that they are rapidly adapting. Think about um the mechanical receptors that are picking up on pressure from your shirt, your pants, your socks, the chair that you're sitting on, you probably are not constantly aware of all of those things because you adapt to them. That's not necessary information as long as you are comfortable and safe. Right? Same with thermal receptors. As long as you're in an environment that is safe for humans to be in temperature wise, you don't need a constant information about the temperature of the space that you're in. And photoreceptors we know are very rapidly adapting. We've all walked from a dark room into a very bright space and it kind of, you know, kind of whack you out for a second, but your eyes adapt very quickly to that as well. So photoreceptors are also rapidly adapting. So our answer is C no C seor, those are the least likely to be rapidly adapting. So there you have it.
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Problem
Problem
Which receptor type would you expect to find on the tongue, allowing us to taste?
A
Thermoreceptors.
B
Nociceptors.
C
Mechanoreceptors.
D
Chemoreceptors.
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