LESSON 3: MOLAR VOLUME QUESTIONS 1. Calculate the density of the least dense gas‚ hydrogen‚ at 25⁰C and 101.3kPa. [0.083g/L] 2. Calculate the density of the densest gas‚ uranium (VI) fluoride (UF6) at 70⁰C and 25.0kPa. [3.09 g/L] 3. An unknown monoatomic gas X has a density of 5.37g/L at 25⁰C and 101.3kPa. Calculate the molar mass of the gas and determine its identity. [ 131.028g/mol; Xe] 4. Calculate the density of ammonia gas in grams per litre at 18⁰C and 100.4kPa. [0.706g/L] SCH3U0 Gases
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Oceans Answer the questions below. When you are finished‚ submit this assignment to your teacher by the due date for full credit. (6 points) 1. Use the graph to fill in the missing temperature‚ salinity‚ and density values on the table. Answer: Position Temperature (oC) Salinity (ppt) Density (g/cm3) A 20 35 1.024 B 25 34 1.023 C 15 35 1.026 (10 points) 2. Use the reference book to answer the following questions. Provide an explanation for the answers. a. In which zone can rooted plants be expected
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measurements. With this lab we had to understand how to analyze the data using measurement bounds. Theory: In this experiment we were to find the density of the wood we are measuring by using the method of upper bound and lower bound. Density is a physical property of matter. Every element and compound has its very own unique density associated with it. Density can be defined in a qualitative manner as the measure of the relative heaviness of objects with a constant volume or also as the amount per unit
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Cartesian Diver Essay The Cartesian Diver is named after the French scientist Rene Descartes. This experiment is supposed to show buoyancy‚ density and different forms of matter at work‚ when demonstrated. To create the Cartesian Diver‚ you’ll simply need: • A empty plastic bottle • A plastic eye dropper • Water 1. Fill the bottle with water‚ but be cautious of spills. 2. Very carefully‚ drop the dropper inside the bottle. Then‚ seal the cap on very tightly. 3. Squeeze the bottle‚ but not too
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mass of the liquid‚ which was 14.21g per mole. The next part was used to determine the density of the volatile liquid. First the volatile liquid was placed in a pyncometer and massed; water was then placed in the same (now clean and empty) pyncometer and massed. The density equation was manipulated using the data for water to solve for the mL of the capillary tube. This new information was used to find the density of the liquid‚ which was 1.33g/mL. The last part of the experiment was used to determine
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Measurements Object Measured|Mass in g|Mass in kg| Quarter|5.6|0.0056| 3 Pennies|7.5|0.0075| Pencil|5.9|0.0059| Volume Measurements and Density Measurements with liquids Water: Mass of empty graduated cylinder __16.7g Volume of water in graduated cylinder __5.0mL Mass of graduated cylinder and water __21.6g Net mass of the water __ 4.9g Density of the water __0.98g/mL Percent error ___2.0% Alcohol: Mass of empty graduated cylinder ____16.7g Volume of alcohol
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Introduction: In industry‚ a heat exchanger is used to cool down streams for temperature sensitive processes. The now hot cooling water is useless to the plant unless something is done to cool it down. In industry‚ cooling water towers are used to bring the water back down to a sufficient level . In a cooling tower‚ outside atmospheric air is flowed through a “column” while the hot water sprayed into the system. Since air is never at full saturation of water (unless it is raining)‚ some of the hot
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100 marks ( ?? % Final) Chapter 1: Fluids statics assignment 1. A spherical tank of methanol with internal diameter of 0.75m has a mass of 1400 kg. Find the methanol’s weight‚ density‚ specific weight‚ specific volume‚ specific gravity and dynamic viscosity if kinematic viscosity is 1.5 stoke Weight‚ 13734 N Density‚6337.9 kg/m³ Specific weight‚ 62174 N/m³ Specific volume‚1.578×10-4 m³/kg Specific gravity‚ 6.34 Dynamic viscosity‚ 0.95 kg/m.s 2. A cone with base radius of 5 cm and height
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Laboratory Techniques and Measurements Choose any three objects that are shorter than the metric ruler to measure‚ such as a CD‚ Key‚ spoon etc. OBJECT | LENGTH (cm) | LENGHTH (mm) | ruler | 30.5 cm | 305 mm | thermometer | 15.1 cm | 151 mm | pencil | 16.7 cm | 167 mm | Warm Temperature Measurements * Fill a 100 a 100mL beaker with 50mL of hot water. Get the water as hot as possible. * Use thermometer to measure the temperature of the water in the beaker using Celsius unit
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the results of the experiment themselves‚ whether volume‚ mass‚ or density‚ proved insufficient in my attempts to distinguish the identities of the metals. Thus‚ during the experiment‚ I also observed the color of the metals‚ and used these observations in my assessment of the metals. The five trials for the golden metal produced an average density for all trials of 8.34 grams per cubic centimeter. [Processed Data Table: Density of the Golden Metal]. The golden metal itself‚ while referred to as
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