No you can not know about that. It is a anesthetic.
To find the number of moles of chloroform in 215 g, you need to divide the given mass by the molar mass of chloroform. The molar mass of chloroform (CHCl3) is approximately 119.38 g/mol. Therefore, 215 g of chloroform is equal to 1.80 moles.
molar mass of CHCl3 is119.5gmol-1. so there are 0.49 moles.
(3.28 g of chloroform/.0275moles of chloro)= 119 g of chloroform. Just take the weights in grams and divide it by number of moles. Hope it helps!
To find the number of moles in 59.1 g of chloroform (CHCl3), you need to divide the given mass by the molar mass of chloroform. The molar mass of chloroform is approximately 119.38 g/mol. Dividing 59.1 g by 119.38 g/mol gives approximately 0.495 moles of chloroform.
The volume of a substance cannot be determined solely from its mass. The volume of a substance is dependent on its density and the formula used is: volume = mass / density. To determine the volume of 5.0g of chloroform, you would need to know the density of chloroform.
It is unlikely for a person to immediately know they were exposed to chloroform while asleep, as it causes unconsciousness. However, upon waking up, they may experience symptoms such as dizziness, headache, or nausea which could indicate exposure to chloroform. It is important to seek medical attention if there are concerns about chloroform exposure.
To find the number of moles of chloroform in 215 g, you need to divide the given mass by the molar mass of chloroform. The molar mass of chloroform (CHCl3) is approximately 119.38 g/mol. Therefore, 215 g of chloroform is equal to 1.80 moles.
No he/she would not know that they had been exposed to the chemical.
molar mass of CHCl3 is119.5gmol-1. so there are 0.49 moles.
(3.28 g of chloroform/.0275moles of chloro)= 119 g of chloroform. Just take the weights in grams and divide it by number of moles. Hope it helps!
To find the number of moles in 59.1 g of chloroform (CHCl3), you need to divide the given mass by the molar mass of chloroform. The molar mass of chloroform is approximately 119.38 g/mol. Dividing 59.1 g by 119.38 g/mol gives approximately 0.495 moles of chloroform.
The volume of a substance cannot be determined solely from its mass. The volume of a substance is dependent on its density and the formula used is: volume = mass / density. To determine the volume of 5.0g of chloroform, you would need to know the density of chloroform.
Chloroform is a colorless liquid with a sweet odor used as a solvent, while chloroform water is a solution in which chloroform is mixed with water. Chloroform water is a mixture of chloroform and water, typically used in laboratory settings for certain chemical reactions.
Chloroform.
Sodium chloride doesn't react with chloroform and is not soluble in chloroform.
Chloroform spirit, also known as chloroform water or chloroform solution, typically consists of chloroform mixed with water and ethanol. The exact composition may vary depending on the specific formulation.
it is soluble in chloroform. Chloroform is nonpolar.