well i think what you do first is that you would divide that number of amu by 6.02 x 10^23 and that will get you the number of moles of H2. once you have the number of moles you divide the number of moles by the molar mass of H2 and that should give you the grams. i’m trying to explain this as best as possible sorry if ur still confused.
Electric current passes through a filament of an incandescent bulb, thereby increasing it temperature. When current flows, it contains electrons through the filament to produce light. Typically, incandescent light bulb consists of a glass enclosure that contains tungsten filament. The glass enclosure contains either a vacuum or an inert gas that serves as the filament protection from evaporating. Incandescent light bulbs contain a stem attached at to its base to allow the electrical contacts to run through the envelope without gas or air leaks.
adaptation
natural selection
B. ethylene
C. heptyne
D. Septane
Option C - Heptyne
Explanation
The longest chain of atoms in a particular molecule consists of seven carbon atoms. This molecule might be called heptane (C7H16). It can be a straight chain or can be branched. Its structure is -C-C-C-C-C-C-C-. Carbon completes its four bonds by combining hydrogen atoms. Hydrocarbons are named according to the carbon atoms. One carbon atom is methane, two containing is ethane, three is propane, four is butane, five is pentane, six is hexane, seven is heptane, eight is octane, nine is nonane and ten is decane.
Why can physical changes separate the components of a mixture but not the components of a compound?
Several types of mixtures can be separated by physical means. Heterogeneous mixtures imply the different parts are not equally distributed, much like how on a pizza the toppings are not located in the crust. A homogeneous mixture is one where the components are equally mixed, such as orange juice or lemonade (excluding the pulp).
A common heterogeneous example is to separate oil from water by placing the mixture into a separation funnel and draining one level of liquid out. You then have the two separate components. Basically, if you can see the different layers in a mixture, you can physically remove them by either picking out the solids (either with your hands or running the mixture through filter paper) or for liquids using the funnel.