Chemistry Textbook Notes: Solutions Chapters 13 & 14:
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1. Define soluble, solution, solvent, solute, suspension, colloid (p.395–398)
Soluble- capable of being dissolved solvent0 the dissolving medium in a solution solute- the substance dissolved in the solution suspension- a mixture in which the particles in the solvent are so large that they settle out unless the mixture is constantly stirred or agitated colloid- a mixture consisting of particles that are intermediate in size between those in the solutions and suspensions forming mixtures known as colloid dispersions
2. Most of the time when people talk about solutions, they are referring to solids that have been dissolved in water. Describe a different type of text=solution">solution (see Table
13–1)
Solutions are not limited to the liquid state, they can occur in all three main phases, gas, liquid, and solid. For example, the water in the air is a liquid solute dissolved in a gas solvent; solid solutions include brass, which is made from combining zinc with copper
3. Describe two examples of colloids (see Table 13–2).
A colloid consists of small particles 1nm to 1000nm in size that are suspended in a solid, liquid or gas. Examples include common products such as gel, a solid network extending throughout a liquid, or liquid aerosol, or otherwise known as fog
4. What is the Tyndall effect? What can it be used to distinguish between?
The Tyndall effect is used to distinguish between a solution and a colloid; a colloid scatters light, like fog scatters the lights of a car, while a solution does not.
5. Describe an experimental method that could be used to classify a sample as a solution, colloid, or suspension.
Allowing the sample to sit for an extended period of time will reveal the suspension, as it needs to be stirred or agitated to maintain its shape. A colloid then can be differentiated from a solution by shining light through it and seeing if it scatters
6. Define electrolyte and nonelectrolyte.
Electrolyte- a substance that when dissolved will conduct an electric current while
Nonelectrolyte- a substance that when dissolved will not conduct an electric current
7. Define saturated, unsaturated, and supersaturated solutions.
Saturated solution- a solution that contains the maximum amount of dissolved solute unsaturated solution- a solution that contains less solute than a saturated solution
Supersaturated solution- a solution that contains more dissolved solute than a saturated solution contains under the same conditions
Also, both their Ph level was 7 which mean that they are neutral and not acidic and reaction with iodine solution was exactly the same. Therefore, with all the experiments conducted and analyzed, icing sugar is the mystery substance. c) Q: Which properties, physical or chemical, were most useful in identifying the mystery powder? Explain your answer.
Afterwards, we conducted crystallization to evaporate the liquid in an attempt to detect the presence of a salt. Before stating which of the potential
Matter exists in three basic states: solid, liquid, or gas. A substance experiences a phase change when the physical characteristics of that substance change from one state to another state. Perhaps the most recognizable examples of phase changes are those changes from a solid to a liquid or a liquid to a gas. When a substance goes through a phase change, there is a change in the internal energy of the substance but not the temperature of the substance (Serway, et al. 611).
Often after mixing an emulsion foam is produced. Foam is produced when pockets of air are trapped in a solid or liquid. Foams are a type of colloid. A colloid is a mixture between homogeneous and heterogeneous mixtures. Beaten egg whites and whipped cream are examples of trapped air in liquids. Marshmallows are an example of air trapped in solids.
Using the scopula, take a small amount of the substance and add it to the spot plate. Add deionized water to the section with the substance. Stir to see if the substance dissolves or not. Record your observations.
A substance which accepts proton in water solution is called base. Bases turn litmus red and form salts when react with acids. They have PH greater than 7.
The process of removing particles from 0.025 micron to 10.0 micron range from fluids by passing through any microporous medium called micro filtration is, in this case, a membrane filter. In this experiment, we will be using 2 and 7-micron nanoparticles (Munir, 2006). When we look at microfiltration. We are looking at how the smallest particles can get through a filter. Specifically, backflush, which is reversed flow. Incorporating backflush into dead end filtration creates a more efficient system (Li, Bertram & Wiley, 1998).
Solubility is defined as the greatest amount of a solid, liquid or gaseous chemical substance that will dissolve in equilibrium in a specified volume of solid, liquid or gaseous solvent at a particular temperature or pressure to form a homogenous solution. Meanwhile, dissolution is a process whereby the solid chemical substance is dissolved in the solvent to form a solution.
Solubility is defined as the maximum amount of a substance that will dissolve in a given amount of another substance at constant temperature and pressure. Solubility is typically expressed in terms of maximum volume or mass of the solute that dissolve in a given volume or mass of a solvent. Traditionally the equilibrium solubility at a given pH and temperature is determined by the shake flask method. According to this method the compound is added in surplus to a certain medium and shaken at a predetermined time. The saturation is confirmed by observation of the presence of un-dissolved material. Saturation can also be reached if the solvent and excess solute is heated and then allowed to cool to the given temperature. After filtration of the
Chromatography is the laboratory technique for separating mixtures into their components for analyzing, identifying, purifying or quantifying the mixtures or components. The mixture dissolved in the mobile phase (gas or liquid) is passed through the stationary phase (liquid or solid), which separates the analyte from the other molecules in the mixture. The differences in the migration rate of the compounds in these two phases effects the separation.
Osmosis is also another type of diffusion where water is transferred from a higher concentration to a lower concentration. Osmosis will then come into play when a membrane that differs in solute concentration breaks in two; the water will move from the hypotonic solution to a hypertonic solution. Initially, the hypotonic solution has a lower concentration, and the hypertonic solution has a higher concentration. The water will then continue its journey down its concentration gradient until it reaches equilibrium; that means the water will have the same solute concentration on both sides. When the solute reaches equilibrium on both sides of the semipermeable membrane, the solution then becomes isotonic. Isotonic solutions are when the solute concentration is the same on the inside and outside of the cells, and that is the reason most cells live in the isotonic state. Additionally, a semi-permeable membrane only permits specific substances to enter, usually opening for a solvent but not most solutes. The substances dissolved in a solution are referred to as a solute; and the solvent is the substance that dissolves a solute in a solution. Therefore, the mixture of a solvent and a solute
Aerosol is a system of solid or liquid particles suspended in air or other gaseous environment. Aerosols vary in size and composition, they can be naturally or manmade generated. Aerosols are minute particles suspended in the atmosphere. When these particles are sufficiently large, we notice their presence as they scatter and absorb sunlight. Aerosols interact directly and indirectly with the earth’s radiation budget and climate. In direct effect the aerosols scatter sunlight. In indirect effect the aerosol can modify the size of cloud.
Chromatography is the technical term for a set of laboratory approaches for the separation of mixtures (Solid/Liquid/Gas). The mixture is dissolved in a fluid which called the mobile phase, which carries it through a structure holding another material known as the stationary phase. The various constituents of the mixture transport at different velocities, causing them to separate. The separation is mainly based on differential partitioning between the mobile and it’s stationary phases. Subtle differences in a compound's partition coefficient result in differential retention time on the stationary phase and thus changing the separation (Tomer, et al., 1994).
Suspension is the picking up of sand by wind. This is when sand is airborne and then deposited anywhere.
The filtration experiment was vital to observe the way different sizes of particles diffuse or filter. The charcoal, which consisted of large particles, did not filter through, while the copper sulfate, which was very small in size, dissolved in the water (solvent) and diffused completely. Size is a major component to take into consideration when thinking about diffusion or