A syrup is added to an empty container with a mass of 114.25 g . When...

Lab work: empty flask mass: 88.00 grams 2.00 atm pressure added mass: 88.358 g mass of...

Lab work: empty flask mass: 88.00 grams 2.00 atm pressure added mass: 88.358 g mass of air: .358 g pressure: 2 atm Question 1: How many moles of air were in the Erlenmeyer flask when the total air pressure was 2.00 atm? A. 0.179 mol B. 0.0155mol C. 0.0124mol D. 0.00620mol Question 2: Given the data you collected when adding 2.00 atm of air to the Erlenmeyer flask, what is the molar mass of air? A. 17.9g/mol B. 35.8g/mol C....

When 4.50 g of Ba(s) is added to 100.00 g of water in a container open...

When 4.50 g of Ba(s) is added to 100.00 g of water in a container open to the atmosphere, the reaction shown below occurs and the temperature of the resulting solution rises from 22.00°C to 54.35°C. If the specific heat of the solution is 4.18 J/(g • °C), calculate ΔH for the reaction, as written. Ba(s) + 2 H2O(l) → Ba(OH)2(aq) + H2(g) ΔH = ? When 4.50 g of Ba(s) is added to 100.00 g of water in a...

When 2.50 g of Ba(s) is added to 100.00 g of water in a container open...

When 2.50 g of Ba(s) is added to 100.00 g of water in a container open to the atmosphere, the reaction shown below occurs and the temperature of the resulting solution rises from 22.00°C to 40.32°C. If the specific heat of the solution is 4.18 J/(g • °C), calculate ΔH for the reaction, as written. Ba(s) + 2 H2O(l) → Ba(OH)2(aq) + H2(g) ΔH = ?

In an insulated container, a 5.0 g sample of water at 80.°C was added to an...

In an insulated container, a 5.0 g sample of water at 80.°C was added to an unknown mass of cooler water at 30.°C. The final temperature of the resulting mixture became 35°C. What mass of cooler water was present? (Assume the container itself adsorbed a negligible amount of heat.)

23 g of water at 21°C is contained in a glass container of mass 327 g....

23 g of water at 21°C is contained in a glass container of mass 327 g. An additional 149 g of water at 100°C is added. What is the final equilibrium temperature (in degrees C) if we treat the system's water and container as isolated? Use the heat capacity values from the this table

1) John used an empty beaker with the mass of 53.126 g. In a separate jar,...

1) John used an empty beaker with the mass of 53.126 g. In a separate jar, he had a mixture of salt and sand. He transferred two scoops of salt and sand mixture to the beaker. The overall mass was 65.449 g. As you know salt is soluble in water, he added enough water in the beaker with salt and sand mixture to completely dissolve the salt. He filtered the mixture and dried what was left in the filter. The...

What mass of water in kg would remain in the container after 200. g of NaCl...

What mass of water in kg would remain in the container after 200. g of NaCl was added to the 1.00 L of water in a 1.00 L container? (Assume the density of water is 1.00 g/mL)

183 g of water at 21°C is contained in a copper container of mass 347 g....

183 g of water at 21°C is contained in a copper container of mass 347 g. An additional 124 g of water at 100°C is added. What is the final equilibrium temperature (in degrees C) if we treat the system's water and container as isolated? Use the heat capacity values from the this table. Specific heat capacity for copper is 387.

LAB RESULTS mass of empty beaker 85.000 g mass of beaker and copper (II) sulfate pentahydrate...

LAB RESULTS mass of empty beaker 85.000 g mass of beaker and copper (II) sulfate pentahydrate 90.000 g mass of empty test tube 27.400 g mass of test tube after heating and cooling 28.993 g Question 1. How many moles of copper were in the copper oxide formed? The molar mass of copper (II) sulfate pentahydrate is 249.68 g/mol. For best accuracy, use the mass measurements read using the balance.2. Calculate the mass of oxygen in the copper oxide. The...

Ice of mass 52.5 g at -10.7° C is added to 220 g of water at...

Ice of mass 52.5 g at -10.7° C is added to 220 g of water at 15.4° C in a 110 g glass container of specific heat 0.200 cal/g-°C at an initial temperature of 25.1° C. Find the final temperature of the system.