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What laboratory apparatus can keep 100 grams of a compount from absorbing atmospheri moisture?
The laboratory apparatus that can keep 100 grams of a compound from absorbing atmospheric moisture is a desiccator. A desiccator is a glass container or apparatus that is used mainly for drying and preventing moisture from the specimen.
What science lab instrument is use to keep 100 grams of compound from absorbing atmospheric moisture?
A desiccator is commonly used in science labs to prevent compounds from absorbing moisture from the atmosphere. It is a sealed container filled with a desiccant, such as silica gel or calcium chloride, which absorbs moisture and maintains a dry environment for the compound.
What piece of lab equipment to keep 100 grams of a compound from absorbing atmospheric moisture?
A desiccator is used to keep compounds dry by creating a dry environment with controlled humidity levels. Placing the compound in a desiccator with a desiccant, such as silica gel or calcium chloride, can help prevent it from absorbing moisture.
How do you calculate the grams of an element in a specific amount of a compound?
To calculate the grams of an element in a compound, you need to find the molar mass of the element and the compound. Then, use the formula: (mass of element/molar mass of compound) x molar mass of element. This will give you the grams of the element in the compound.
Which statement shows how to correctly convert from the mass of a compound in grams to the amount of that compound in moles?
To convert from the mass of a compound in grams to the amount of that compound in moles, you need to divide the mass of the compound in grams by its molar mass (which is found on the periodic table). This will give you the number of moles of the compound. The formula to use is: moles = mass (g) / molar mass.
What laboratory apparatus can keep 100 grams of a compount from absorbing atmospheri moisture?
The laboratory apparatus that can keep 100 grams of a compound from absorbing atmospheric moisture is a desiccator. A desiccator is a glass container or apparatus that is used mainly for drying and preventing moisture from the specimen.
What science lab instrument is use to keep 100 grams of compound from absorbing atmospheric moisture?
A desiccator is commonly used in science labs to prevent compounds from absorbing moisture from the atmosphere. It is a sealed container filled with a desiccant, such as silica gel or calcium chloride, which absorbs moisture and maintains a dry environment for the compound.
What piece of lab equipment to keep 100 grams of a compound from absorbing atmospheric moisture?
A desiccator is used to keep compounds dry by creating a dry environment with controlled humidity levels. Placing the compound in a desiccator with a desiccant, such as silica gel or calcium chloride, can help prevent it from absorbing moisture.
How do you calculate the grams of an element in a specific amount of a compound?
To calculate the grams of an element in a compound, you need to find the molar mass of the element and the compound. Then, use the formula: (mass of element/molar mass of compound) x molar mass of element. This will give you the grams of the element in the compound.
What do you do to convert grams to moles?
The molar mass of a compound is expressed in grams.
How many grams of co2 are in 2l mol of the compound?
92.4 grams
Which statement shows how to correctly convert from the mass of a compound in grams to the amount of that compound in moles?
To convert from the mass of a compound in grams to the amount of that compound in moles, you need to divide the mass of the compound in grams by its molar mass (which is found on the periodic table). This will give you the number of moles of the compound. The formula to use is: moles = mass (g) / molar mass.
If compound A has a molar mass of 159.7 gmole and compound C has a molar mass of 57.6 gmole how many grams of compound C will be produced from 17.62 grams of compound A and excess compound B?
To determine the grams of compound C produced from 17.62 grams of compound A, we first need to calculate the number of moles of compound A. This is done by dividing the mass of compound A by its molar mass: ( \text{moles of A} = \frac{17.62 , \text{g}}{159.7 , \text{g/mole}} \approx 0.110 , \text{moles of A} ). If the reaction between compound A and compound B produces compound C in a 1:1 molar ratio, then 0.110 moles of A would yield 0.110 moles of C. Finally, converting moles of C to grams gives ( \text{grams of C} = 0.110 , \text{moles} \times 57.6 , \text{g/mole} \approx 6.35 , \text{g} ).
There are 113.2 grams in 4 ounces of compound.How many grams are in 5 ounces of compound?
141.5
How many grams of CO2 are in 2.1 mol of the compound C and O?
I think 92.4 grams
How many grams are in 5 ounces of compound?
140
What compound has a molar mass 18 grams?
12
