Measure 50 ml of warm water (40 – 50 oC) in your 50 ml graduated cylinder...

Consider two Styrofoam coffee cups. If cup #1 contains 80.0 mL of water at 96.0 oC...

Consider two Styrofoam coffee cups. If cup #1 contains 80.0 mL of water at 96.0 oC and cup #2 contains 60.0 mL of water at 11.0 oC, what is the final temperature, in oC, when the contents of cup #1 are poured into cup #2? Ignore the heat capacity of the cup. Assume that the density of water is 1.00 g/mL.

measure 5 grams of sodium chloride (NaCl) and add to 50 ml of distilled water in...

measure 5 grams of sodium chloride (NaCl) and add to 50 ml of distilled water in a graduated cylinder. stir the salt. this was a failed attempt at making a 10% w/v solution. Determine the excess volume by reading the volume of the graduated cylinder. the number of ml in excess of 50 represents the volume displaced by the 5g of dissolved NaCl. The question for the above information is: What is the actual percentage of NaCl (w/v)? Please explain...

Questions are after the procedures. Procedure 1) For Trial 1, use a graduated cylinder to measure...

Questions are after the procedures. Procedure 1) For Trial 1, use a graduated cylinder to measure 5 mL of 1 M sodium sulfate (Na2SO4). Place the sodium sulfate in a beaker. Using a clean graduated cylinder, add 5 mL of 1 M calcium chloride (CaCl2) to the beaker. Stir to mix well. 2) Using two Büchner funnels as in the diagram below, set up a funnel system with a safety flask to protect the water system from contaminants. 3) Filter...

Procedure was; add 50 mL of distilled water to the calirimeter (styrofoam cups). And add 5...

Procedure was; add 50 mL of distilled water to the calirimeter (styrofoam cups). And add 5 gram of unknown salt to the calorimeter and stir slowly with the thermometer. Question is; if some heat were transferred from the air or Styrofoam cups would the calculated enthalpy of solution of the unknown salt be too high or too low? Explain.

1) A ring weighing 9.45 g is placed in a graduated cylinder containing 25.3 mL of...

1) A ring weighing 9.45 g is placed in a graduated cylinder containing 25.3 mL of water. After the ring is added to the cylinder the water rises to 27.4 mL. What metal is the ring made out of? Assume the ring is a single metal. 2) Ollivander sells sheets of aluminum in a variety of thicknesses: 1.0 mm at 0.55 $/cm2, 2.0 mm at 0.70 $/cm2, and 3.0 mm at 0.85 $/cm2 and various thicknesses in between all following...

Answer the following questions given this experiement: Measure the volume of a soda can by filling...

Answer the following questions given this experiement: Measure the volume of a soda can by filling it completely with water and pouring it out in 50 mL increments using a graduated cylinder. Add about 15 mL of water to a soda can then heat it using a hot plate until the water boils and water vapor begins to escape. Using a pair of tongs take the can and place it with the open end first into a bowl of ice...

The aluminum cup inside your calorimeter weighs 39.96 g. You add 49.96 g of ice cold...

The aluminum cup inside your calorimeter weighs 39.96 g. You add 49.96 g of ice cold water to the calorimeter. You measure the temperature of the calorimeter to be 0.5oC just before your next addition. You then add 50.44 g of hot water and a 50.10 g metal object, all having an initial temperature of 69.5oC. After the calorimeter reaches thermal equilibrium, the final temperature is measured to be 36.1oC. Assume that: the calorimeter is completely insulated the heat capacity...

SETUP In today’s lab we will measure specific heat using a calorimeter. A calorimeter consist of...

SETUP In today’s lab we will measure specific heat using a calorimeter. A calorimeter consist of a small metal cup inside a larger metal container, with a lid.  The cups are thermally separated from each other by means of air and a wooden ring, thus reducing the thermal conduction to a minimum. To keep track of how much water etc. we have, the whole calorimeter will be placed on a digital scale. Make sure to zero the scale before you place...

Procedures Place two 150 mL Erlenmeyer flasks from the Containers shelf on the workbench. Double-click on...

Procedures Place two 150 mL Erlenmeyer flasks from the Containers shelf on the workbench. Double-click on the flasks to label one flask “A” and the other “B”. Obtain a 10 mL graduated cylinder and a 50 mL graduated cylinder from the Containers shelf. Place two constant temperature baths from the Instruments shelf onto the workbench.   Set the temperature on each bath to 21.5 °C. The contents of each flask will vary with each trial as indicated in the table below....

The aluminum cup inside your calorimeter weighs 40.85 g. You add 49.81 g of water and...

The aluminum cup inside your calorimeter weighs 40.85 g. You add 49.81 g of water and 3.03 g of KCl to the calorimeter. The initial temperature is 20.1oC, and the final temperature is 16.9oC. What is the heat of dissolution for the amounts of salt added, in units of J? Assume that: the calorimeter is completely insulated the heat capacity of the empty calorimeter is the heat capacity of the aluminum cup. the mass of KCl added is small enough...