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Strong atomic bonds, such as covalent and ionic bonds, are generally not easy to break because they involve the sharing or transfer of electrons between atoms, which creates a stable structure. Breaking these bonds typically requires a significant amount of energy or specific conditions.
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Why are most metals malleable and ductile but ionic crystals aren't?
Unlike metallic bonds, ionic bonds can't exist in every direction. See, in metallic bonds, the 'shared' electrons are free; they don't belong to any of the atoms, the jump form atom to atom in every direction. This means that even if you bent the metallic bond, the atoms WILL find some place to 'jump' to. In ionic bonds, the atoms must be distributed properly so that every atom has eight valence electrons surrounding it (except for hydrogen). If you bend the compound too much or in the wrong direction, the bonds will break. Unlike metallic bonds, ionic bonds can't exist in every direction. See, in metallic bonds, the 'shared' electrons are free; they don't belong to any of the atoms, they jump from atom to atom in every direction. This means that even if you bent the metallic bond, the electrons WILL find some place to 'jump' to. In ionic bonds, the atoms must be distributed properly so that every atom has eight valence electrons surrounding it (except for hydrogen). If you bend the compound too much or in the wrong direction, the bonds will break.
Are network solids malleable?
Covalent network solids are generally not malleable. They have crystal structures that lack obvious glide planes and the covalent bonds are difficult to break and remake. This is a contrast with the metals where many of the crystal structures have glide planes and metallic bonds are relatively easy to break and remake.
How are hydrogen bonds different from covalent bonds?
Hydrogen bonds are weaker intermolecular forces that occur between molecules with hydrogen atoms bound to highly electronegative atoms like oxygen or nitrogen, whereas covalent bonds are strong intramolecular forces formed by sharing electrons between atoms. Covalent bonds involve a sharing of electrons between atoms, while hydrogen bonds involve an attraction between partial positive and negative charges on different molecules.
Why is it advantageous to have weak hydrogen bonds between complementary base pairs and strong covalent bonds between phosphate and deoxyribose groups in a DNA molecule?
The reason why it is advantageous to have weak hydrogen bonds between complementary base pairs and strong covalent bonds between phoshate and deoxyribose groups in a DNA molecule is because the strong covalent bonds running along the "ladder" of the DNA molecule (the phospate and deoxyribose units) keep the molecule together during its existence and more importantly its reproduction. The weak hydrogen bonds in the middle keep the reproduction cycle going on forever because it is able to perform an easy split between the hydrogen bonds throughout the middle of the molecule.
Why do covalent bonds have high volatility?
Covalent bonds have high volatility because they involve the sharing of electrons between atoms, which allows for relatively easy breaking and formation of bonds. The shared electrons are not strongly bound to a specific atom, making it easier for them to move between different atoms and thereby leading to high volatility.
What bond exists between complimentary bases?
hydrogen bonds, which are very easy to break.
Why are most metals malleable and ductile but ionic crystals aren't?
Unlike metallic bonds, ionic bonds can't exist in every direction. See, in metallic bonds, the 'shared' electrons are free; they don't belong to any of the atoms, the jump form atom to atom in every direction. This means that even if you bent the metallic bond, the atoms WILL find some place to 'jump' to. In ionic bonds, the atoms must be distributed properly so that every atom has eight valence electrons surrounding it (except for hydrogen). If you bend the compound too much or in the wrong direction, the bonds will break. Unlike metallic bonds, ionic bonds can't exist in every direction. See, in metallic bonds, the 'shared' electrons are free; they don't belong to any of the atoms, they jump from atom to atom in every direction. This means that even if you bent the metallic bond, the electrons WILL find some place to 'jump' to. In ionic bonds, the atoms must be distributed properly so that every atom has eight valence electrons surrounding it (except for hydrogen). If you bend the compound too much or in the wrong direction, the bonds will break.
What is the type of bond cytosine and guanine make?
An H-bond, or known as hydrogen bond. Hydrogen bonds are attractive bonds, very strong but easy to break. Think of it as someone who has a girlfriend(a strong bond, connected) but is attracted to other girls. A hydrogen bond is not as strong as a covalent or ionic bond(a strong bond).
Are network solids malleable?
Covalent network solids are generally not malleable. They have crystal structures that lack obvious glide planes and the covalent bonds are difficult to break and remake. This is a contrast with the metals where many of the crystal structures have glide planes and metallic bonds are relatively easy to break and remake.
Why is chalk easy to break but also very strong?
chalk is made from a chalk like rock. The reson why its hard is because it a rock and the reson why it break so easy is because of its weight and size
What is the best make of pointe shoes for beginners?
Bloch sylphide are very good, not too strong and good for a beginner's foot that is not too strong. Very easy to break in. other types of bloch shoes can be more difficult to break in.
How are hydrogen bonds different from covalent bonds?
Hydrogen bonds are weaker intermolecular forces that occur between molecules with hydrogen atoms bound to highly electronegative atoms like oxygen or nitrogen, whereas covalent bonds are strong intramolecular forces formed by sharing electrons between atoms. Covalent bonds involve a sharing of electrons between atoms, while hydrogen bonds involve an attraction between partial positive and negative charges on different molecules.
What is easy exit bonds?
Easy Exit Bonds are bonds which provides liquidity and easy exit route to the investor by way of redemption where investors can get ready encashment in case of need to withdraw before maturity.
What is responsible for diamond's hardness?
Diamond is a structure known as a giant covalent network, formed from carbon. Each carbon is bonded to four others in a tetrahedral arrangement. Due to the atoms' size and the length of the bonds, this results in an extremely strong linkage, one which requires enormous amounts of energy to break or to deform. Because of this fact, diamond is both extremely hard (difficult, in fact nigh impossible to alter the shape of) and extremely difficult to break (not easy to destroy bonds).
Are handmade clothes good?
it depends on the person that makes them. E.G. if it is well made and strong then it will last a while and be strong and good but if it isn't well made it will ware away and break easy
Is it easy to break an iPodtouch?
No. It's possible to break an iPodtouch but really difficult to break it. It is not really easy to break an iPodtouch.
Why is it advantageous to have weak hydrogen bonds between complementary base pairs and strong covalent bonds between phosphate and deoxyribose groups in a DNA molecule?
The reason why it is advantageous to have weak hydrogen bonds between complementary base pairs and strong covalent bonds between phoshate and deoxyribose groups in a DNA molecule is because the strong covalent bonds running along the "ladder" of the DNA molecule (the phospate and deoxyribose units) keep the molecule together during its existence and more importantly its reproduction. The weak hydrogen bonds in the middle keep the reproduction cycle going on forever because it is able to perform an easy split between the hydrogen bonds throughout the middle of the molecule.
