have you ever seen videos of a hydrogen bomb that's why lol. but you don't use pure oxygen cause that's poisonous and extremely flammable you use air which is (70% nitrogen, 29% oxygen 1% etc..
Liquid water is lower in energy compared to a mixture of hydrogen and oxygen gases because the formation of water from these gases releases energy through an exothermic reaction, indicating that the products (water) are more stable than the reactants (hydrogen and oxygen). Stability is determined by the energy state; since water is in a lower energy state, it is more stable than the gaseous mixture. This can be confirmed by the fact that water remains in liquid form under standard conditions, while hydrogen and oxygen gases readily react under the right conditions.
Oxygen and hydrogen atoms easily combine to form water molecules because oxygen has a high electronegativity, meaning it attracts electrons strongly. This allows the oxygen atom to share electrons with two hydrogen atoms to form stable covalent bonds. The resulting molecule, water, is more energetically favorable and stable.
Yes, there is more oxygen than hydrogen in terms of weight. This is because oxygen is heavier than hydrogen so even though there may be more molecules of hydrogen, the overall weight is greater for oxygen.
In the reaction 2H₂O → 2H₂ + O₂, water (H₂O) is more stable than hydrogen (H₂) and oxygen (O₂) under standard conditions. This is because water is a low-energy compound, while the products, hydrogen and oxygen gases, possess higher energy due to their molecular bonds. As a result, the formation of water from its elemental gases releases energy, indicating that water is the more stable product in this reaction.
Water does not ordinarily burn because of the massive amount of energy required to break the chemical bond between Hydrogen and Oxygen. If enough heat is added to break apart this bond, then the Hydrogen will burn.
When hydrogen and oxygen bind to form water, the electrons are shared between the hydrogen and oxygen atoms. This sharing creates a stable covalent bond in the water molecule.
Oxygen shares electrons with hydrogen to form covalent bonds in molecules like water. This sharing allows oxygen to complete its valence shell and achieve a stable electron configuration, while hydrogen can similarly complete its valence shell. This electron sharing results in a more stable compound with lower energy.
Oxygen atoms easily combine with two hydrogen atoms to form water molecules because oxygen is more electronegative than hydrogen, leading to a partial negative charge on the oxygen atom and partial positive charges on the hydrogen atoms. This creates a strong attraction between the oxygen and hydrogen atoms, resulting in the formation of a stable molecule.
Liquid water is lower in energy compared to a mixture of hydrogen and oxygen gases because the formation of water from these gases releases energy through an exothermic reaction, indicating that the products (water) are more stable than the reactants (hydrogen and oxygen). Stability is determined by the energy state; since water is in a lower energy state, it is more stable than the gaseous mixture. This can be confirmed by the fact that water remains in liquid form under standard conditions, while hydrogen and oxygen gases readily react under the right conditions.
Yes, nitrogen is more stable than air in tires.
Oxygen and hydrogen atoms easily combine to form water molecules because oxygen has a high electronegativity, meaning it attracts electrons strongly. This allows the oxygen atom to share electrons with two hydrogen atoms to form stable covalent bonds. The resulting molecule, water, is more energetically favorable and stable.
Yes, there is more oxygen than hydrogen in terms of weight. This is because oxygen is heavier than hydrogen so even though there may be more molecules of hydrogen, the overall weight is greater for oxygen.
By number of atoms it has more hydrogen, by mass it has more oxygen. Each water molecule contains two hydrogen atoms and one oxygen atom. However, a typical oxygen atom has about 16 times the mass of a typical hydrogen atom.
The electrons in the oxygen and hydrogen have a high amount of energy which is released when the oxygen and hydrogen combine to form water. The electrons are in a more stable set of bonds. The water then has no chance of bonding to decrease energy, so the water absorbs heat by cooling and boiling, so that the fire goes out.
Oxygen can only form 2 covalent bonds with hydrogen because oxygen has 6 valence electrons and needs 2 more electrons to achieve a full octet, which is satisfied by forming 2 covalent bonds with hydrogen atoms. This allows oxygen to attain a stable electron configuration similar to the noble gas configuration.
The atmosphere has higher oxygen levels than hydrogen primarily due to the processes of photosynthesis and the stability of oxygen molecules. Plants, algae, and cyanobacteria produce oxygen as a byproduct of photosynthesis, contributing significantly to atmospheric oxygen. Hydrogen, on the other hand, is lighter and tends to escape into space more readily than heavier gases, leading to its lower concentrations in the atmosphere. Additionally, oxygen is more chemically stable and less reactive in comparison to hydrogen, allowing it to accumulate over geological time.
Hydrogen contains no oxygen in its chemical structure. Water contains two hydrogen atoms and one oxygen atom.