Walter's POV
"Correct Mr. Sandoval" sabi ni prof ngumiti naman si sky dito saka tumingin sa katabi ko kaya napalingon din ako kay takahashi na pirming nakapikit lamang wala ba siyang balak sumagot tsk
"okay lang kung hindi mo alam ang mga sagot Mr. Kojiro kaya ko naman sagutin no offense"sabi ni sky saka ngumiti kahit hindi siya nakikita nito dahil nakapikit lang talaga ito
"yeah you're right because I won't waste my saliva on a simple question so stupid gusto ko kasi yung talagang pípígain yung uták ko did you get it" malamig nitong sabi kay sky saka ngumisi
"tsk hindi ka nga makasagot sa simpleng tanong eh sa mahirap na tanong pa kaya HAHAHAHA ang sabihin mo bóbó ka lang talaga at mababa ang iq"sabi ni sky dito pero hindi man lang niya ito pinansin
"ow let see honey~~"nang aakit nitong sabi kaya napalingon kaming lahat dito at lahat ng babae kahit mga lalaki ay namula dahil lamang sa boses nitong nang aakit
"Ehemm okay this is the hardest question"peking ubo ni prof kaya tumingin kami sa kanya at halata din sa kanila na namula what ganon na ba nakakaakit ang boses ni takahashi pati ako ramdam ko namula ang pisngi ko púték
"okay let's start"sabi ulit ni prof kaya nagseryoso na ulit kami habang ang katabi namin chill-chill lang na nakaupo habang nakapatong ang paa sa lamesa at nakapikit pa ang mga mata
{ Questions Number 11 }
"Are two atoms of the same element identical?"tanong ni prof
"yes---"naputol ang sasabihin ni sky ng magsalita ang katabi ko
"No"mabilis na sagot ni takahashi kaya napalingon kami dito pero nakapikit lang ito at pasayaw sayaw ang paa sa lamesa
"why? Mr.Kojiro"tanong ni prof
"Two atoms of the same chemical element are typically not identical. First of all, there is a range of possible states that the electrons of an atom can occupy. Two atoms of the same element can be different if their electrons are in different states. If one copper atom has an electron in an excited state and another copper atom has all of its electrons in the ground state, then the two atoms are different. The excited copper atom will emit a bit of light when the electron relaxes back down to the ground state, and the copper atom already in the ground state will not. Since the states of the electrons in an atom are what determine the nature of the chemical bonding that the atom experiences, two atoms of the same element can react differently if they are in different states. For instance, a neutral sodium atom (say, from a chunk of sodium metal) reacts with water much more violently than an ionized sodium atom (say, from a bit of salt). Chemists know this very well. It's not enough to say what atoms are involved if you want to fully describe and predict a reaction. You have to also specify the ionization/excitation states of the electrons in the atoms. Even if left alone, an atom often does not come with an equal number of protons and electrons." mahabang paliwanag nito
°_° '_'
"I think my answer is correct" sabi pa nito ng walang umimik kaya nabalik kami sa reyalidad at gulat na tumingin kay pof na nagulat din sa sagot nito wtf ang sagot ko don yes e
"ah-h ye-es Mr. Kojiro"nauutal na sabi ni prof
{ Questions Number 12 }
"Can you light diamond on fire?"tanong ulit ni prof
"No---"naputol na naman ang sasabihin ni sky ng magsalita ulit ito
"Yes, diamond can be burned. The most common form of burning in everyday life is carbon combustion. In carbon combustion, carbon atoms break their bonds with each other and with other atoms (which requires energy) to form bonds with oxygen atoms (which releases even more energy than first required). The net extra energy released in this reaction can then go on to rip more carbon atoms free of their non-oxygen neighbors, thus continuing the reaction, or the energy can escape as heat and light. Carbon bonded with oxygen makes carbon dioxide and carbon monoxide, which are the waste products of combustion. They drift away from the fire as gases. Since biological organisms, and the fuels derived from biological organisms, contain a lot of carbon, much of the burning that goes on around us is carbon combustion. This includes camp fires, candles, car engines, and gas stoves. Pure diamond consists only of carbon atoms bonded into a dense, strong crystal lattice, so diamond can also undergo carbon combustion. In fact, Antoine Lavoisier first determined that diamond is made out of carbon by burning it and showing that the combustion product was carbon dioxide. The book Diamond Films and Coatings by Robert Foster Davis states, "In 1772 the French chemist Antoine L. Lavoisier found that the products of diamond combustion behaved as, and most assuredly were, solely carbon dioxide... He determined that the ignition and burning of each produced equal amounts of 'bound air'.The presence of strong atomic bonds in diamond means that it takes a lot of energy to rip apart the carbon atoms in diamond in order to free them up to burn with oxygen. As a result, it takes a higher temperature to burn diamond than to burn wood. The ignition temperature of wood is about 300 degrees C while the ignition temperature of diamond in air is about 900 degrees C. Although diamond requires a higher temperature to burn, it does indeed burn via normal carbon combustion. You can even burn diamond in a regular flame if you are patient and conditions are right. To accelerate the burning of diamond, you can give it more heat and more oxygen. For instance, holding a blow torch to a diamond and then throwing it in a cup of liquid oxygen leads to an impressive display. Jewelers have to worry about this effect every day because they use flames to mold the metal in a diamond ring but don't want to burn the diamond." mahaba nitong paliwanag kaya ang ibang mga kaklase ko ay napapangángá na lamang ganon din ang kaibigan ko
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✔ My Revenge
Romance[BxB] Mabuting anak si Achiro ngunit ng dahil sa ng yare sa magulang nya naging malamig na sya sa lahat at hindi na kailan man tumawa at ngumiti dahil sa pagkacoma ng magulang nya nagbago ang ugali nya ni hindi na nya makuhang maging masaya ngunit p...
