annotation requires the following\n1. number paragraphs\n2. write a summary sentence for each paragraph\n3…

annotation requires the following\n1. number paragraphs\n2. write a summary sentence for each paragraph\n3. circle vocabulary words and underline definition, circle and define words you dont know\n4. make one connection, question, or ah ha moment from the text\n\nchemical bonds in compounds\nwhen a compound such as salt, sugar, copper sulfate, or glucose are formed,\nthe elements in each compound are held together by what are called chemical bonds. a chemical\nbond is a force of attraction between two atoms. recall that electrons are the negatively\ncharged part of an atom that move around the nucleus. atoms are able to transfer (give) or\nshare electrons between each other and those chemical bonds cause an attraction.\nrecall that electrons move around the nucleus of an atom. this outer\n\cloud\ of the atom has layers and there are only a certain number of electrons that can fit in\neach layer. the first layer can hold two electrons, the second layer can hold eight electrons, the\nthird can hold eighteen electrons, and so on. these atoms naturally want to have full cloud\nlayers. when atoms that are lacking electrons come into contact with other atoms, they\nnaturally want to give or gain electrons to balance out.\na type of bond where an atom gives, or transfers, one or more electrons to\nanother atom is called an ionic bond. when an atom has the same number of protons (positive\ncharge) and electrons (negative charge), the atom remains neutral (no charge). however, once an\natom loses one or more electrons (the negative charge), the atom itself becomes positively\ncharged. an atom with a charge is called an ion. ions do not have the same number of electrons\nas they do protons. the atom that loses an electron is called a positive ion and the atom that\nreceives the extra electron now has a negative charge and is called a negative ion. these two ions\nattract each other because opposite forces (positive and negative) attract and form a bond. this\nis how compounds are created.\nanother way elements are bonded together is through a covalent bond.\ncovalent bonds share electrons rather than giving them away or taking them. electrons are\nalways shared in pairs. a good example of a covalent bond is water (h2o). the electrons (negative\ncharge) from two hydrogen atoms and the electrons from one oxygen atom are attracted to\nthe positive charge held in the nuclei of each other. this attraction allows the atoms to be held\ntogether to form a compound (water).\nin the world around us, there are millions of chemical compounds. scientists\nlike to classify (organize into groups based on similar properties) chemical compounds into two\ngroups based on their bond type: ionic compounds and covalent compounds. as the names suggest,\nionic compounds are the compounds formed with ionic bonds and covalent compounds are\ncompounds formed with covalent bonds. ionic compounds (such as sodium chloride, or table salt)\ntend to be brittle, have a high melting point, be arranged in a crystalline pattern, and are in a\nsolid state in room temperature. many of them can be dissolved in water. covalent compounds\n(such as water and wax) often have a lower melting point and many are not water soluble\n(although some, like sugar, are an exception).
Answer
1. Number Paragraphs
- When a compound such as salt, sugar, copper sulfate, or glucose are formed, the elements in each compound are held together by what are called chemical bonds. A chemical bond is a force of attraction between two atoms. Recall that electrons are the negatively charged part of an atom that move around the nucleus. Atoms are able to transfer (give) or share electrons between each other and those chemical bonds cause an attraction.
- Recall that electrons move around the nucleus of an atom. This outer “cloud” of the atom has layers and there are only a certain number of electrons that can fit in each layer. The first layer can hold two electrons, the second layer can hold eight electrons, the third can hold eighteen electrons, and so on. These atoms naturally want to have full cloud layers. When atoms that are lacking electrons come into contact with other atoms, they naturally want to give or gain electrons to balance out.
- A type of bond where an atom gives, or transfers, one or more electrons to another atom is called an ionic bond. When an atom has the same number of protons (positive charge) and electrons (negative charge), the atom remains neutral (no charge). However, once an atom loses one or more electrons (the negative charge), the atom itself becomes positively charged. An atom with a charge is called an ion. Ions do not have the same number of electrons as they do protons. The atom that loses an electron is called a positive ion and the atom that receives the extra electron now has a negative charge and is called a negative ion. These two ions attract each other because opposite forces (positive and negative) attract and form a bond. This is how compounds are created.
- Another way elements are bonded together is through a covalent bond. Covalent bonds SHARE electrons rather than giving them away or taking them. Electrons are always shared in pairs. A good example of a covalent bond is water (H₂O). The electrons (negative charge) from two hydrogen atoms and the electrons from one oxygen atom are attracted to the positive charge held in the nuclei of each other. This attraction allows the atoms to be held together to form a compound (water).
- In the world around us, there are millions of chemical compounds. Scientists like to classify (organize into groups based on similar properties) chemical compounds into two groups based on their bond type: ionic compounds and covalent compounds. As the names suggest, ionic compounds are the compounds formed with ionic bonds and covalent compounds are compounds formed with covalent bonds. Ionic compounds (such as sodium chloride, or table salt) tend to be brittle, have a high melting point, be arranged in a crystalline pattern, and are in a solid state at room temperature. Many of them can be dissolved in water. Covalent compounds (such as water and wax) often have a lower melting point and many are not water soluble (although some, like sugar, are an exception).
2. Summary Sentence for Each Paragraph
- Paragraph 1: Chemical bonds hold elements in compounds together, and they form via electron transfer or sharing between atoms.
- Paragraph 2: Atoms have electron “cloud” layers with specific electron capacities, and atoms lacking electrons seek to gain or lose electrons to fill these layers.
- Paragraph 3: Ionic bonds form when atoms transfer electrons, creating charged ions (positive/negative) that attract to form compounds.
- Paragraph 4: Covalent bonds form when atoms share electrons (e.g., in H₂O), with electron pairs shared between atoms to create compounds.
- Paragraph 5: Scientists classify compounds into ionic (formed by ionic bonds, with high melting points, brittleness, and water solubility) and covalent (formed by covalent bonds, with lower melting points and limited water solubility) based on bond type.
3. Circle Vocabulary & Define Unknown Words
| Circled Word | Definition (Underlined in Text or Paraphrased) |
|---|---|
| Chemical bond | A force of attraction between two atoms. |
| Electron | The negatively charged part of an atom that moves around the nucleus. |
| Ionic bond | A bond where an atom transfers one or more electrons to another atom. |
| Ion | An atom with a charge (does not have an equal number of protons and electrons). |
| Positive ion | An atom that loses an electron, resulting in a positive charge. |
| Negative ion | An atom that gains an electron, resulting in a negative charge. |
| Covalent bond | A bond where atoms share electrons (rather than transferring them). |
| Classify | To organize into groups based on similar properties. |
| Ionic compounds | Compounds formed with ionic bonds (e.g., table salt); brittle, high melting point, crystalline, solid at room temp, water - soluble. |
| Covalent compounds | Compounds formed with covalent bonds (e.g., water, wax); lower melting point, often not water - soluble (except exceptions like sugar). |
4. Connection, Question, or “Ah Ha” Moment
- Connection: I remember that table salt (NaCl) is an ionic compound—this matches the description of ionic compounds being brittle, water - soluble, and solid at room temperature.
- Question: Why do some covalent compounds (like sugar) dissolve in water even though most covalent compounds are not water - soluble?
- “Ah Ha” Moment: I now understand why ionic compounds have high melting points—their crystalline structure and strong ionic attractions require more energy to break, unlike covalent compounds with weaker intermolecular forces.