Want this question answered?
No, when the carbon atoms in hydrocarbon molecules are bonded to as many hydrogen atoms as possible, a saturated hydrocarbon is produced. Unsaturated hydrocarbons have carbon-carbon double or triple bonds, resulting in fewer hydrogen atoms bonded to the carbon atoms.
Fractional distillation of the liquefied mixture is one possible method.
hydrocarbon are made of hydrogen and carbon
Yes, all is true.
Yes, saturated fatty acids have the maximum number of hydrogen atoms possible because all carbon atoms are bonded to as many hydrogen atoms as they can, with no double bonds between carbon atoms. This results in a straight, saturated chain structure.
Alkanes have the most possible number of hydrogen atoms with respect to the carbon again.
Yes, it is possible to design a device that can test for both carbon dioxide and hydrogen. One way to do this would be to use sensors that are specifically designed to detect these gases and integrate them into the same device to measure their concentrations separately. The device would need to have distinct sensors for each gas and appropriate data processing capabilities to provide accurate readings.
Fractional distillation of the liquefied mixture is one possible method.
hydrocarbon are made of hydrogen and carbon
Hydrogen bonding occurs in molecules where hydrogen is bonded to the elements fluorine, oxygen, or nitrogen.
Carbon and hydrogen are not typically included in the reactivity series because they are not metals and do not undergo the same types of reactions as metals. Metals are listed in the reactivity series based on their tendency to lose electrons and form cations in chemical reactions. Carbon and hydrogen typically participate in covalent bonding rather than forming cations through electron transfer.
Hydrogen forms an ionic bond with fluorine because fluorine is more electronegative than hydrogen, meaning it attracts electrons strongly and can easily accept an electron from hydrogen to form an ion pair. On the other hand, carbon and hydrogen have similar electronegativities, leading to the sharing of electrons in a covalent bond. This sharing allows both atoms to achieve a more stable electron configuration.
Hydrogen and carbon Hydrogen and carbon
Carbon, Hydrogen, and Oxygen ine the ratio of 1:2:1
hydrogen, carbon, oxygen
Yes, all is true.
An example of a saturated hydrocarbon is methane (CH4), which consists of single bonds between carbon and hydrogen atoms and contains the maximum number of hydrogen atoms possible for its carbon atoms.