The elemental form of antimony is a metal, whereas nitrogen is N2. What are the different...

The formation of ammonia from elemental nitrogen and hydrogen is an exothermic process.                   N2(g) +...

The formation of ammonia from elemental nitrogen and hydrogen is an exothermic process.                   N2(g) + 3 H2(g) ⇌ 2 NH3(g)                                 ΔH = -92.2 kJ How would a system initially at equilibrium respond in order to counteract each of the following changes? Answer with “runs to the right”, “shifts to the left”, or “no effect”. a) addition of hydrogen ______________________________________ b) removal of ammonia ______________________________________ c) increasing the pressure _____________________________________ d) increasing the temperature __________________________________ e) removal of...

Consider elemental antimony (Sb). (a) Based on its position in the periodic table, how many valence...

Consider elemental antimony (Sb). (a) Based on its position in the periodic table, how many valence electrons should it have? You should not need to do any detailed calculations or write the electron configuration. Further, what block does it belong to (i.e., s, p, d, or f)? (b) Based on its position in the periodic table, what shell (i.e., n = ?) should the valence electrons be associated with? You should not need to do any detailed calculations or write...

Nitrogen and fluorine react to form nitrogen fluoride according to the chemical equation: N2 (g) +...

Nitrogen and fluorine react to form nitrogen fluoride according to the chemical equation: N2 (g) + 3F2(g) → 2NF3 (g) If a sample containing 19.3 g of N2 is reacted with 19.3 g of F2, how many grams of NF3 will be produced? Now we need to find the amount of NF3 that can be formed by the complete reactions of each of the reactants. If all of the N2 was used up in the reaction, how many moles of...

19. Hot magnesium metal reacts with nitrogen gas to produce magnesium nitride:3 Mg(s)+ N2(g)→Mg3N2(s)What mass of...

19. Hot magnesium metal reacts with nitrogen gas to produce magnesium nitride:3 Mg(s)+ N2(g)→Mg3N2(s)What mass of N2gas is required to completely react 1.32 g of magnesium metal?a. 0.507 gb. 0.0543 gc. 0.0181 gd. 0.254 g can i get a walkthrough of this problem

1) Elemental S reacts with O2 to form SO3 according to the reaction 2S+3O2→2SO3 A) How...

1) Elemental S reacts with O2 to form SO3 according to the reaction 2S+3O2→2SO3 A) How many O2 molecules are needed to react with 3.25 g of S? B) What is the theoretical yield of SO3 produced by the quantities described in Part A? 2) 1.05 g H2 is allowed to react with 9.71 g N2, producing 1.15 g NH3. A) What is the theoretical yield in grams for this reaction under the given conditions? Express your answer to three...

Q9: Imagine you have two gasses, one with n1 moles and the other with n2 moles....

Q9: Imagine you have two gasses, one with n1 moles and the other with n2 moles. If you placed each one individually in a container of volume V and temperature T what would their individual pressures be? Q10: Now imagine you have one container with n1+n2 moles of gas. What would the pressure be? How does it compare to the answer in Q9?

The enzyme ABC exists in two different forms, one form is present only in the mitochondria...

The enzyme ABC exists in two different forms, one form is present only in the mitochondria and the other form can only be found in the cytosol. You are asked to purify the cytosolic ABC. Explain how centrifugation might be involved in the process.

Consider a classroom filled with air. Let’s approximate air as an ideal gas of N2-molecules (nitrogen)...

Consider a classroom filled with air. Let’s approximate air as an ideal gas of N2-molecules (nitrogen) at normal conditions (P = 1 Bar and T = 300 Kelvin). Suppose the room has dimensions of 10 m by 10 m by 10 m (a pretty large auditorium). Let us also assume that N2 molecule has 5 degrees of freedom (3 translational and 2 rotational). In this problem you will need to provide numeric answers up to the first significant digit. 2.1...

Imagine that you have two pieces of different types of metal of the same mass. You...

Imagine that you have two pieces of different types of metal of the same mass. You then perform the following experiment. You take 500 ml of water in a well-insulated beaker with a diameter of 75 mm at 20.0+/-0.05°C. The two masses are heated to 100 +/- 0.05°C. Metal A is place in the water container. After waiting some time, you find that the temperature of the system stabilizes at 24.8+/- 0.05 °C. You then add metal B to the...

7. In biology, the roles of transition metal ions can be broadly grouped into two classifications:...

7. In biology, the roles of transition metal ions can be broadly grouped into two classifications: redoxchemistry (catalysis, electron transfer, etc.) and acid-base chemistry (catalysis, structural, etc.). (a) List three metal ions that commonly participate in biological redox chemistry, and give examplesof how they participate. (b) Compare this list to metal ions commonly participating in acid-base chemistry. Discuss the overlapof these two groups of metal ions. (e.g., why are some used for one of these functions and not for theother?)...