アから順番に12131であってますか？ わかる方教えてください！！ お願いします！

Earth has two sets of poles: the geographic poles and the magnetic poles. The geographic poles are located at the northemmost and southernmost ends of the earth. The location of the magnetic poles, on the other hand, are ( ア ) moving, This fact has several implications for navigation and transportation. Shifts in the position of the North Magnetic Pole are nothing new. Since 1831, scientists have been tracking its location. The movements are caused by changes in the flow of swirling molten iron in the earth's core which affect how the earth's magnetic field behaves. What is surprising to scientists is the speed at which the pole has been moving in recent years. For most of the 20th century, magnetic north was located around the northern parts of Canada. It drifted around, moving slowly north at an ( イ ) speed of approximately 10 kilometers per year. In recent decades, that rate has increased significantly to about 55 kilometers per year. The North Magnetic Pole is now moving away from Canada toward eastem Russia. While scientists can't fully explain how changes in the carth's molten core are affecting the pole's movement, they can map the earth's magnetic field. Doing so allows them to ( ウ) hé rate of change over time. This, in turn, provides information on how the magnetic field may shift in the future. Information on changes to the earth's magnetic field is used to produce the World Magnetic Model (WMM). This model is used as the basis for all fornms of modern navigation, from how ships move at sea to mapping software in smartphones. ( エ) in the model, caused by shifts in the real location of the North Magnetic Pole, can seriously impact almost all foms of modern transportation. The model is updated every five years, but in 2018, during routine checks of the 2015- 2020 model cycle, scientists noticed a problem. Because of the rapidly shifting pole, the WMM was close to being outside the acceptable limits for navigational errors. This forced the release of an updated version of the model、 It was revised ( オ ) in 2020, and the current version is expected to last until 2024, As well as keeping track of the WMM's accuracy, scientists continue investigating why the magnetic field is changing so dramatically. This essential work will ensure a safe journey for everyone navigating their way through the world.

ア順番に12131であってますか？ わかる方教えてください！！！！ お願いします！

For most of the 20th century, magnetic north was located around the northern parts of molten iron in the earth's core which affect how the earth's magnetic field behaves. What is surprising to scientists is the speed at which the pole has been moving in recent years. magnetic poles, on the other hand, are ( ア ) moving. This fact has several implications poles are located at the northernmost and southernmost ends of the earth. The location of the Shifts in the position of the North Magnetic Pole are nothing new. Since 1831, scientists Earth has two sets of poles: the geographic poles and the magnetic poles. The geographic have been tracking its location. The movements are caused by changes in the flow of swirling for navigation and transportation. Canada. It drified around, moving slowiy north at an ( イ ) speed of approximately 10 MIometers per year. In recent decades. that rate has increased significantly to about 3 KIIometers per year. The North Magnetic Pole is nowmoving away from Canada toward eastern Russia. While scientists can't fully explain how changes in the earth's molten core are affecting the pole's movement, they can map the earth's magnetic field. Doing so allows them to (ウ ) the rate of change over time. This, in turn, provides information on how the magnetic field may shift in the future. Information on changes to the earth's magnetic field is used to produce the World Magnetic Model (WMM). This model is used as the basis for all forms of modern navigation, from how ships move at sea to mapping software in smartphones. ( エ ) inthe model, caused by shits in the real location of the North Magnetic Pole, can seriously impact almost all forms of moderntransportation. The model is updated every five years, but in 2018, during routine checks of the 2015- 2020 model cycle, scientists noticed a problem. Because of the rapidly shifting pole, the WMM was close to being outside the acceptable limits for navigational errors. This forced the release of an updated version of the model. was revised ( オ ) in2020, and the current version is expected to last until 2024. As well as keeping track of the WMM's accuracy, scientists continue investigating why the magnetic ficld is changing so dramatically. This essential work will ensure a safe journey for everyone navigating their way through the world.

アから順番に12131であってますか？ わかる方教えてください！！ お願いします！

例3.次の英文は 「磁極の移動」について述べたものです。(ア) ~ (オ) に入れ る最も適当なものを選択肢から選びなさい。 Earth has two sets of poles: the geographic poles and the magnetic poles. The geographic poles are located at the northernmost and southernmost ends of the earth. The location of the magnetic poles, on the other hand, are ( ア ) moving. This fact has several implications for navigation and transportation. Shifts in the position of the North Magnetic Pole are nothing new. Since 1831, scientists have been tracking its location. The movements are caused by changes in the flow of swirling molten iron in the earth's core which affect how the earth's magnetic field behaves. What is surprising to scientists is the speed at which the pole has been moving in recent years. For most of the 20th century, magnetic north was located around the northern parts of Canada. It drifted around, moving slowly north at an ( イ) speed of approximately 10 kilometers per year. In recent decades, that rate has increased significantly to about 55 kilometers per year, The North Maggnetic Pole is now moving away from Canada toward eastern Russia. While scientists can't fully explain how changes in the earth's molten core are affecting the pole's movement, they can map the earth's magnetic field. Doing so allows them to ( ウ ) the rate of change over time. This, in turn, provides information on how the magnetic field may shift in the future. Information on changes to the earth's magnetic field is used to produce the World Magnetic Model (WMM). This model is used as the basis for all forms of modern navigation, from how ships move at sea to mapping software in smartphones. ( エ ) inthe model、 caused by shifts in the real location of the North Magnetic Pole, can seriously impact almost all foms of modern transportation. The model is updated every five years, but in 2018, during routine checks of the 2015- 2020 model cycle, scientists noticed a problem, Because of the rapidly shifting pole, the WMIM was close to being outside the acceptable limits for navigational errors. This forced the release of an updated version of the model, It was revised (オ ) in2020, and the current version is expected to last until 2024, As well as kecping track of the WMM's accuracy, scientists continue investigating why the magnetic ficld is changing so dramatically, This essential work will ensure a safe joumey for everyone navigating their way through the world.

かっこに入る単語(sで始まりdで終わる)を教えていただきたいです🙏

Mr. Sellers is a ( ) businessman. His solid work ethic and attention to detail helped him to build this company into what it is today.

①本当は物質のあとに全部常温の状態の形を書きますよね？ ②状態を書いてるものと書いてないのの違いわかる方いますか??(これはわからなければ大丈夫です！) ③37は吸収だから-ではないのですか？ 印刷ミスですかね？

熱化学方程式の練習プリント 友達と問題を出し合いながら早く慣れましょう! 1.赤熱した黒鉛1モルに水蒸気を触れさせると一酸化炭素と水素が発生し131kJ の熱量が吸収される。 2. ダイヤモンド1モルを完全燃焼させると395KJの熱量が発生する。 3. メタンの燃焼熱は891KJ/molである。 4. 窒素と酸素から一酸化窒素1モルが生成するとき90KJの熱量が吸収される。 5.臭素の蒸発熱は31KJ/molである 6. ヨウ素の昇華熱は62KJ/molである。 7.臭素の溶解熱は2.6kJ/molである。 8. プロパンの燃焼熱は2219KJ/molである。 9.メタンの生成熱は75kJ/molである。 10.塩化ナトリウムの生成熱は411KJ/mo1である。 11.塩化ナトリウムの溶解熱は-4kJ/molである。 12.硫酸の溶容解熱は95kJ/molである。 13. 中和熱は56KJ/molである。 14. エタノールの燃焼熱は1368KJ/mo1である。 15. エチレンの燃焼熱は1411KJ/molである。 16. アセチレンの生成熱は一227KJ/molである。 17.塩化水素の生成熱は92KJ/mo1である。 18.アンモニアの生成熱は46KJ/molである。 19.一酸化炭素の生成熱は111KJ/molである。 20.黒鉛1gを完全燃焼させると32. 8kJの熱が発生する。(C=12) 21.硝酸カリウムO. 10molを多量の水に溶かすと3.49KJの熱が吸収される。 22.標準状態のエタン11.2Lを完全燃焼させたところ780KJの発熱があった。 23. 水酸化ナトリウム1gを多量の水に溶解したところ1.1kJの発熱があった。 (H=1,O=16, Na=23) 24.標準状態の塩化水素1Lを多量の水に溶解したところ3.35KJの発熱があった。 25. 二硫化炭素の生成熱は一90KJ/mo1である。 26. 標準状態の水素11.2Lを完全燃焼すると143KJの発熱がある。 27. アンモニアの溶解熱は34KJ/mo1である。 28. 水(固体)の融解熱は6KJ/mo1である。 29. エチレンの生成熱は-52KJ/mo1である。 30. 一酸化炭素の燃焼熱は283KJ/molである。 H 31.水の蒸発熱は44KJ/molである。 32.塩化カルシウムの溶解熱は81KJ/molである。 33. プロパンの生成熱は105KJ/mo1である。 34.臭化水素の生成熱は36KJ/mo1である。 35.水の凝縮熱は44KJ/molである。 36.1モルのエチレンが水素と反応してエタンになるとき136KJの発熱があった。 37.10.7gの塩化アンモニウムを多量の水に溶解したとき、2.96KJの熱量を 吸収した(N=14, H=1, C1=35. 5)。 38.硫酸ナトリウムの溶解熱は2. 4kJ/mo1 である。 HM OsH SHS ○〇 (日)

熱力学について質問です。 問題文の一定の外圧1.00atmをどう扱ったら良いかよく分かりません。自分でとりあえず解いてみたんですが合ってる自信あまりないです。もし分かる方いらっしゃいましたら、ご教授していただけませんか？🙇‍♂️

Problem 2 A sample consisting of 1.00 mol of perfect gas molecules at 300 K is expanded isothermally from initial pressure of 3.00 atm of a final pressure of 1.00 atm against a constant external pressure of 1.00 atm. Determine the values of q, w, AU, AH, AS, ASsur, and AStotal. 300Kにある完全気体 1.00mol の試料が、 温度一定で始めの圧力 3.00 atm から終わりの圧 カ 1.00 atm まで、一定の外圧 1.00 atm に抗して、 膨張する。 この過程に対して、9, w, AU,AH, AS, AS r, ASiosal を求めよ。 管品可運勝張より、Tが喫化しないためるリ=D 始めの体様をV終わりの体殊をソュとおくと. V, = 8.314× 300 スH- AU + PAV 1660 [コ] 1660 8.21×(o°[m] AS = = 5.53 [h] 300 ニ 3×1, 013 × /D" Vz = 8.314x300 1.013× [0 外界が理た熱置はdisur = -AHよ) = 0.0276 [m] ASsur- 「desur T 1660 300-5.53[7h] Pdv = -1.013 x /0°x (0.0246- 8.21Y16') - こ M AStotal こ AS + ASU- = -1660 LJ] AV= 9+ W より 1 - -w- 1660[5] 0 Problem 3 Calculate the change in the molar entropy at 1 atm when a solid ethanol at 159 K of the melting point changes

このsとかgはどういう意味ですか？

Na(s) Na (g)

Thanks

理科-28 問7 コロイド(colloid) に関する次の記述(a)~ (d)のうち, 正しいものが二つある。 そ れらの組み合わせを, 下の①~⑥の中からつ選びなさい。 7 (a) コロイド粒子 (colloidal particle)は,半透膜 (semipermeable membrane) を通過する。 (b) 疎水コロイド(hydrophobic colloid)に少量の電解質(electrolyte) を加えると, 凝析(coagulation)する。 (C) コロイド溶液(colloidal solution)が流流動性(fluidity) を失い, 固化(solidification) した状態をゲル (gel) という。 (d) 水酸化鉄(I) Fe(OH); のコロイドを疑析させやすいのは, NazSO』 より KCI である。 0 a, b 2 a, c 3 a, d の b, c 5 b, d 6 c, d にるっている水 980 g に水酸化ナトリウム NaOH 日日 o に丸宏 ロ ontoiner)

この問１の式はどうなりますか？？教えてくださいお願いします！

リリU (LUバI0 P:OLIU 問10℃の氷9.0gを加熱して50℃の水にするのに何kJの熱量が必要か。ただし, 氷の融解熱を6.0 kJ/mol, 水1gの温度を1K上げるのに必要な熱量を4.2J/(g-K), 分子量はH,O =18とする。 融解:melting 融点: melting point 融解熱:heat of fusion 凝固: solidification 7 凝固点:freezing point 凝固熱:heat of freezing 蒸発: vaporization 沸点: boiling point 凝縮:condensation 蒸発熱: heat of vaporization 凝縮熱: heat of condensation

【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)