and determine the no. of electrons‚ protons and neutrons of the following e- p+ n a.) Oxygen - 8 8 b.) Cesium - 55 55 c.) Argon - 18 18 d.) Uranium - 92 92 e.) Copper - 29 29 2. Calculate the atomic mass of sulfur from its natural isotope. f.) Sulfur-36 g.) Sulfur-32 h.) Sulfur-33 i.) Sulfur-34 3. Complete this table. Symbol of Elements | Atomic Number | Atomic Mass | # of protons | # of Electrons | # of Neutrons | Sc |
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CHEMISTRY 17 1ST LONG EXAM REVIEWER I. ELECTRONIC STRUCTURE OF ATOMS -arrangement of atoms’ electrons -the number of electrons in an atom -distribution of electrons around the nucleus and their energies • ATOMS *Billiard Ball Model (JOHN DALTON) *Plum Pudding Model (JOSEPH J. THOMPSON) *RUTHERFORD’s Model of Atom -atoms are tiny‚ hard‚ indivisible spheres -electrons (negative charge) occupy the atom - Atom is mostly empty space with a dense nucleus • PROBLEMS with Rutherford’s Model
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chemical bond that involves the sharing of pairs of electrons between atoms. A compound is made when two or more atoms form a chemical bond‚ linking them together. The two types of bonds are ionic bonds and covalent bonds. In an ionic bond‚ the atoms are bound together by the attraction between oppositely charged ions. If the electron is shared equally between the atoms forming a covalent bond‚ then the bond is said to be nonpolar. An electron is more attracted to one atom than to another which forming
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emitted due to an atom’s electrons making a transition from a high energy state to a lower energy state. Since each element has different numbers of electrons‚ each element’s emission spectrum is different. This allows elements to be identified by their color during a flame test. For example‚ it is know that a sodium cation burns a yellow-orange color. The normal electron configuration of atoms or ions of an element is known as the ground state. In this energy state‚ all electrons are at their most stable
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protons are not equal to the electrons ion the protons are not equal to the neutrons isotope atomic mass = mass of protons + neutrons changing the number of neutrons does not influece the mass or electrons atom behaviour is because of electrons hydrogen almost always loses its electron‚ leaving it a hydrogen ion taking away a negative charge creates a cation adding a negative charge creates an anion electronegativity is the ability to steal electrons electronegativity is influenced
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Chemistry Review sheet: Unit 1- Lesson 1‚ 2 *Key notes to keep in mind* ü Metals have a high low ionization energy ü Non-metals have a high electron affinity · Atom: The basic unity of an element which still retains the elements properties · Atomic number: the unique number of protons in the nucleus of a particular element · Isotope: Atoms of the same element which contain a different number of neutrons · Periodic law: The chemical
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Review of Related Literature Group 2 (IV-Assumption) Background information: (Local) Based on http://www.zamboanga.com‚ Caringo ‚ Mercedes‚ Camarines Norte‚ Philippines is experiencing too many black outs‚ they also state that they don’t rely on Diesel fuel and coal for their Electricity‚ because in their place there are many renewable and sustainable source of energy like Hydro Power‚ Solar Power‚ and Wind Power. Background information: (Foreign) According to http://www.bbc.co.uk Peru is also
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are created by the complete transfer of electrons from one atom to another. In this process of electron transfer‚ each atom becomes a ion that is isoelectronic with the nearest noble gas.‚ the substance is held together by electrostatic forces between the ions. The tendency for these ions to be formed by elements is corespondent to the octet rule‚ when atoms react‚‚ they tend to do so in such a way that they attain an outer shell containing eight electrons. The factors that effect the formation of
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when we get there. Matter is composed of atoms. Atomic nuclei are tightly bound protons and neutrons (1H excepted) with electrons hanging out in the electron clouds around them. Also‚ there are chemical bonds between atoms in a lot of different kinds of matter. These bonds involve the borrowing and loaning of electrons (the so-called ionic bonds) or the sharing of electrons (the so-called covalent bonds). That’s matter‚ and now we’re going to see what happens when we shoot stuff at it. Incoming
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As such‚ its outer shell (VALENCE) has the maximum number of electrons (i.e.‚ the outer shell is full). Thus‚ the electron configuration is STABLE. In other words‚ Noble Gases are not reactive. Figure 2 is the element Nitrogen. Its outer shell is NOT full. Thus‚ the electron configuration is UNSTABLE. To become stable (i.e.‚ have an outer shell with the maximum number of electrons)‚ nitrogen will either GIVE AWAY or TAKE electrons from another element. When this happens‚ the NITROGEN ION is
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