clove oil is. in bases its characteristis smell cannot be detected.
"olfactory indicators" are those indicators that help to identify whether the given solution is acidic or basic by changing their smell inspite of colour as other indicators do.
yes,vanilla and clove are olfactory acid base indicators.
Yes, vanilla is an olfactory indicator.
both are olfactory indicators
yes
The Olfactory nerve. CN1 Cranial Nerve I, or the first cranial nerve called the Olfactory nerve.
Yes. There are two distinct parts to the olfactory system--the main olfactory system and the accessory olfactory system
in the olfactory bulb
The sense of smell is olfactory .
Olfactory tracts
Olfactory indicators are substances that change color in response to specific odors. They are used to detect or identify the presence of certain gases or vapors based on the color change they undergo when exposed to particular odors. These indicators can be useful in applications such as leak detection in gas pipelines or detection of spoiled food.
yeah, it is an olfactory indicator!
onion
yes!!!
yes the smell changes with acid and bases.
In this question, "allfactory" probably is someone's phonetic (mis)spelling of "olfactory", which refers to odor. An example of an olfactory indicator of chemical reaction would be disappearance of the usually pleasant odor of an ester by an odorless or sharper smelling mixture of an organic acid and an alcohol as the ester is being hydrolyzed.
onion vanilla essence cloveoil
Onion clove is acidic in nature and can lower the pH of a solution, making it more acidic. Vanilla, on the other hand, is slightly basic and can help neutralize acids by increasing the pH of a solution. Overall, onion clove and vanilla can affect the acidity or basicity of a solution depending on their own pH levels.
The Olfactory nerve. CN1 Cranial Nerve I, or the first cranial nerve called the Olfactory nerve.
Yes. There are two distinct parts to the olfactory system--the main olfactory system and the accessory olfactory system
in the olfactory bulb
The mechanism of the olfactory system can be divided into a peripheral one, sensing an external stimulus and encoding it as an electric signal in neurons, and a central one, where all signals are integrated and processed in the central nervous system. The peripheral olfactory system receptors are connected to bipolar olfactory receptor neurons in the olfactory epithelium. Fot the central olfactory system, axons from the olfactory sensory neurons converge in the olfactory bulb.