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Question 5 of 15Ordering: Use the up and down arrows to order the list and then click "submit."Each of the following molecules has a C-O bond. Rank these molecules in order of increasing C-O bond energy. Lowest Bond EnergyHighest Bond EnergyCOCO2CO32-H3COH
Generally covalent bond
The energy needed to break a bond between two atoms is the called the bond energy. The SI units for bond energy are kJ/mol.
That energy is trapped in the bond. The bond energy is called bond enthalpy and is available in tables on the internet. Energy is required to break a bond but released when bonds form. If the sum of the reactant bond energy is less than the sum of the product bond energy then energy will be released in the chemical reaction.
ATP stores energy in its phosphate bond. This energy is released when the bond break and ATP is converted into ADP. This energy is used to perform vital functions in an organism.ATP stores energy in its phosphate bond. This energy is released when the bond break and ATP is converted into ADP. This energy is used to perform vital functions in an organism.
Question 5 of 15Ordering: Use the up and down arrows to order the list and then click "submit."Each of the following molecules has a C-O bond. Rank these molecules in order of increasing C-O bond energy. Lowest Bond EnergyHighest Bond EnergyCOCO2CO32-H3COH
Bond energy is basically how much energy it would take to break the bond between atoms. Bonding in atoms occurs due to the interactions of the valence (outermost) level of the electrons. The further the atoms get from each other the weaker the bond becomes because these valence electrons don't interact as well and the protons in the nucleus of the more electronegative atom are less attracted to the other atom's electrons, thus the bond is weak and it takes less energy to break a weaker bond. This is basically the answer in a nutshell, there is much more detail to it but that would take a whole book to explain.
bond formation is an energy releasing process. the chemically bonded atoms are more stable than the separated atoms. gain in stability is always accompanied by a decrease in energy. besides, the opposite process, bond breaking requires energy to break the attraction between the bonded atoms.
Generally, cells derive their energy from ATP (in their phosphate bond).
In the increasing order, they are non polar covalent bond < polar covalent bond < ionic bond.
Generally covalent bond
C=c Double carbon-carbon bond
The energy needed to break a bond between two atoms is the called the bond energy. The SI units for bond energy are kJ/mol.
decrease
The energy required to break a chemical bond and form neutral isolated atoms is called bond energy.
I can't believe that someone answered "amino acids"......The actual answer is the bond between the second and third phosphate group.Because of the substantial amount of energy liberated when it is broken, the bond between the second and third phosphates is commonly described as a "high-energy" bond and is depicted in the figure by a wavy red line. (The bond between the first and second phosphates is also "high-energy".) (But please note that the term is not being used in the same sense as the term "bond energy". In fact, these bonds are actually weak bonds with low bond energies.)phosphate bond
Nope it doesn't you suck