（1）の問題でそれぞれの物質が分子結晶か共有結合の結晶かなどはどのようにして判断するのですか？昇華のしやすさなどの性質で判断しますか？ 優しい方教えて頂きたいです💦よろしくお願いします🙏

[知識 210.分子結晶と共有結合の結晶 次に示す物質の結晶について,下の各問いに答えよ。 【アイ塩化ナトリウム(銅(ウ)二酸化ケイ素 (オ) アンモニア (ウ)二酸化ケイ素(エ) 二酸化炭素 (夕) ヨウ素 (カ) 塩化アンモニウム (キ)エタノール WHICH (1) 分子結晶をすべて選び, 記号で示せ。 (2) 水素結合を形成している分子結晶を2つ選び、記号で示せ。 (3) 共有結合の結晶を選び, 記号で示せ。 [知識 Iz

読みましたが、全体的に理解出来ません。英語で理解出来なかったので多分、全文和訳しても理解出来ません。 なので、この写真に載っていることを分かりやすく教えていただきたいです🙇🏻‍♀️

Free energy changes determine if a reaction is endothermic or exothermic. Processes in nature are driven in two directions: toward least MAIN IDEA enthalpy and toward greatest entropy. When these two oppose each other, the dominant factor determines th direction of change. As a way to predict which factor will dominate fora given system, a function has been defined to relate the enthalpy and entropy factors at a given temperature tropy and constant pressure. This combined enthalpy-entropy function is callepd t free energy, G, of the system; it is also called Gibbs free energy. This function simultaneously assesses the tendencies for enthalpy and entropy to change. Natural processes proceed in the direction that lowersthefree energy of a system. Only the change in free energy can be measured. It can be defined in terms of changes in enthalpy and entropy. At a constant pressure and temperature, the free-energy change, AG, of a system is defined as the difference between the change in enthalpy, AH, and the product of the Kelvin temperature and the entropy change, which is defined as TAS. Free Energy Change AGO= AH°- TASO Note that this expression is for substances in their standard states. The product TAS and the quantities AG and AHhave the same umor usually kJ. The units of AS for use in this equation are usually N If AG<0, the reaction is spontaneous. AH and AS in the free-energy equation can have positive or negative values. This leads to four possible combinations of terms.

この問題で、私はAとDで悩んでAを選んだのですが、答えはDでした。 理由をなるべく詳しく教えていただきたいです🙇🏻‍♀️

which of the following types of compounds is most (ikely to be Strong electrolyte? A. A polar compound B.省% C.省% D. Anionic compoundl.

【英語ですみません】最後の12番は何を書いたら良いのでしょうか…？ Video C の実験では、aqueous solution にlead(ii) nitrate, aqueous solution にPottasium iodide を入れていました。 2KI (aq)... 続きを読む

With lead (I) nitrate solution. This precipitation reaction produces a bright yellow solid. (point values in parentheses) Part 1: 1. Copy the unbalanced reaction below into your lab notebook. Balance the reaction by adding coefficients. (1) KI (aq) Pb(NO,), (aq) KNO, (aq) Pbl, (s) 2. a) Which trial are you assigned? b) Copy the data table below into your notebook. Watch video A (make sure it's the correct trial!) and collect your data. You may need to pause or rewatch the video, it goes quickly. (1.5) Mass of Empty Beaker (g) Mass of Beaker+ solid Pb(NO,)。(g) Volume of 1.0 M KI (aq) (mL) For the following calculations, show all your work for full credit. 3. What mass of solid Pb(N0,), was added to the beaker? (1) 4. If the solid Pb(NO,), was dissolved in 45 mL of water, what is the molarity of the Pb(NO,)。 solution? (2.5) 5. Which compound is the limiting reactant? (4) 6. What mass of lead (II) iodide (PbL,) should be produced? (2) Part 2: 7. Watch video B (make sure it's the correct trial!) to see the complete reaction and collection of the product. Copy the data table below and record your data. (1) Mass of filter paper (g) Mass of filter paper + dried precipitate (g) 8. What mass of precipitate was collected? Show your work. (1) Calculate the percent yield for the reaction. Show your work. (2) 10. For your trial, which three ions were present in the filtered solution at the end of the reaction? In other words, which three ions are still dissolved at the end of the reaction? Defend/explain your 9. answer. (3) 11. Watch video C - watch both tests for your trial and record your observations. (1) a) Add lead (II) nitrate - b) Add potassium iodide - 12. These tests were conducted to prove the identity of the limiting reactant. Considering your answers to the previous two questions, describe how these tests support the prediction you made in question 5 about which compound is the limiting reactant. (2)

【英語ですみません】stoichiometry CH4と2O2 のどちらが先になくなりますかって言う問題だと思うのですが、計算式の意味がよくわからないです。一つ目は、reality で、2つ目はimpossible って描いてあるので上のやつで計算するとおもうのですが、ど... 続きを読む

CHy 202 CO2 + 2 H20 Example: I hae 3mal CHy and 7 mol Dz which will nn out frst? CHy lininng ranctant 1 -runs put PRED IしTIDNS. 3 mo CH) ICO2 3mol CO,<realty run out of CHy all the CHhy wull be usedu I CHy ICO1) チ mol O21 Con) 202 xcess rlachint impossible! dont have enouyh CHn =35mol CO2 < 3 more thon enoush Somcull 6c let4 ove/anused

なぜ答えがbなのか詳しく教えていただきたいです🙇🏻‍♀️ (問題文と選択肢の意味はわかります。)

9. A mixture of 0.50 mol H。(6) and 0.50 mol N。(q) is introduced into a 15.0 liter container having a pinhdle leak at 30°C. After a period of time, which of the following is true? The partial pressure of H, exceeds that of N, in the container. b) The partial pressure of N, exceeds that of H, in the container. C. The partial pressures of the two gases remain equal. d. The partial pressures of both gases increase above their initial values.

なぜ答えがbなのか分かりやすく説明して頂きたいです🙇🏻‍♀️

9. Amixture of 0.50 mol H。(G) and 0.50 mol N,(g) is introduced into a 15.0 liter container having a pinhdle leak at 30℃. After a period of time, which of the following is true? a. The partial pressure of H, exceeds that of N, in the container. b) The partial pressure of N, exceeds that of H, in the container. C. The partial pressures of the two gases remain equal. d. The partial pressures of both gases increase above their initial values.

🙏🏻至急🙏🏻 ここまで合っているか間違っているか分かりませんが、多分間違っているので、どこが間違っているのかと、この続きのヒント教えて頂きたいです🙇🏻‍♀️ あと、これはLで答えるのですか？それともgで答えるのですか？

3. - CaCO。(s) + _< HCI (aq)→ _ CaCl, (aq) + __H,0 (1) + L CO. (g) How much 0.80 M HCI would be needed to dissolve a CaCO。 pearl which weighs 4.0 grams? QmolHCL | mof Cac03 408 Cac03x lmol Caco3 L-27? 0、80mol て Exナカ

この問題のaが合っているか間違っているかと、bcのヒントを教えて頂きたいです。(bは間違えているので)

伯 6 た MO コム (ri (2 (oe9# Hz (> 3 a.Amixture of hydrogen (1.01 g) and chlorine (17.73 9) 上 a container at 300.K has a total MS pressure Of 98.8 kPa. What is the partial pressure of in the mixture? {人% Te = 0S00020SS6 mW に 0. x eo 0、25005If77 ns9 ア 2 いQQ ) Ro II dt072363meg ミ 055】Aw の 0 0旨 /且 っ te : 0中073263ngの to another container which has a volume | perature remaining unchanged. How many ons? (The increased preSSsure doeS not CauSe 4 c ント96 05.4967603xを人> っ 7 300、 に 7 2 66/ の0字 L こしし5 se

【英語ですみません🙇‍♂️】9,10,11,12で、どれがorganized, reduced なのか教えていただきたいです🙏 6,7,8は分かったのですが、下はよく理解できませんでした説明お願いします。。

6. reaction of nitrogen gas with hydrogen 82S 2 NH.(⑧ N@ 3 HH@ グ 太 El cxidized N reduced 旧 ineral o7g7coc76) 7. production ofcopper metal fom its sulfide as found in rocks (Cu。S, the miner2 2 SO,⑮ CuSG) + O,@ つ 2 Cu⑮ ky ィ N +| っ の ケ 1 oxidized 。S redueed Cu () 8。 elemental bromine can be cxtracted from seawater using chlorine ga 2 Brの Ss 09 っ mg + CMの ー| 選 の | oxidized Br reduced C% OrganismSigetitheir energy by COndHGHilFGGOXIEGHGHONSING “harvesting2 the energy released』軸heyineed (1) something to oxidize (an electron donor whichis theirfood) ②⑫) Somefhmgt6 oxidize it with (am electron acceptorleigl 0 ) 2. Here js an example ofa food molecule (glucose) being oxidized by oxygen in your body CHi。0。(くの 店 6 0.(<の ーー 。 6CO:(@⑦ 直 6 H0⑰ 辺 ダ +t ゝ 汗(時 oxdized reduced 10. some bacteria use sulfate as their oxidizer (electron acceptor) instead ofO。 mm fhis example, the bacteria are partially oxidizing lactic acid to produce acetic acid NOTE: a fractional oxidation sfate is allowed for carbon @& this is not balanced as written Jacfic acid acetic acid CH。COOH(22) + HO⑦) + SOの つ CHiCOOH(42) + CO,(42⑦) + HS-(の oxidized reduced 11. Bacteria can also use nitrate as (heir electron acceptor. As nitrate gains electrons, it tuns into several other forms. Find the oxjdation state of nitrogen in each of them: which is most reduced and which is mosf oxidized. NO NO N, NHi 4 12. Bactera can use amn1Onium aS an energy SOurce when oxygen 1S Dresent tO Oxidize it、 2NHJ + 90。 ご 2N と 4HO 2 ィ| RI oxidized reduced