Abstract Alkenes can be produced by heating and dehydrating an alcohol in the presence of a strong acid. The purpose of this experiment was to synthesize cyclohexene by dehydration of cyclohexanol and to detect the presence of a double bond in the alkene. The dehydration reaction using distillation was performed using two acid catalysts‚ 85% phosphoric acid and sulfuric acid. Tests for unsaturation were performed adding drops of bromine in tetrachloride and potassium
Premium Alkene Distillation Sulfuric acid
Rate ∆ = ( concentration of ∆ at time (t2)-concentration of ∆ at time (t1))/(t1 -t2) Results Magnesium with Hydrochloric acid (HCl (aq)) Mg (s) + HCl (aq) → H2 (g) + MgCl2 (aq) + heat Mass (g) Moles (n) Time (s) Rate (mol/s) 0.02 (g) n=m/M = 0.02 (g) / 24.31 g ● mol = 8.2 × 10-4 mol 1612.58
Premium Chemical reaction Reaction rate Sulfuric acid
material in the world. Over the years lead recycling has greatly matured as a result over half of the lead produced and used each year throughout the world has been used before in other products. Today over 80% of the lead is used in the making of lead-acid batteries which are theoretically speaking 100% recyclable. Lead recycling however has one critical problem‚ lead and the many of the by-products produced during the recycling are poisonous. So lead recycling can be broadly divided into to two categories
Premium Sulfuric acid Oxygen Sulfur dioxide
dm–3 potassium hydroxide solution (KOH(aq))‚ is required to neutralize 25.0 cm3 of 0.200 mol dm–3 aqueous sulfuric acid‚ (H2SO4(aq))? A. 12.5 cm3 B. 25.0 cm3 C. 50.0 cm3 D. 75.0 cm3 4. The temperature in Kelvin of 1.0 dm3 of an ideal gas is doubled and its pressure is tripled. What is the final volume of the gas in dm3? A. B. C. D. 5. What volume of 0.500 mol dm–3 sulfuric acid solution is required to react completely with 10.0 g of calcium carbonate according to the equation below
Premium Hydrogen Sulfuric acid Sodium hydroxide
Introduction : Copper(II) sulphate‚ is a type of salt which it is formed by combining both copper ion and sulphate ion through the experiment of double displacement between dilute sulphuric acid ‚ and copper(II) carbonate ‚ . Through this process‚ the copper ion will displace the hydrogen ion as it is more electropositive and sulphate ion will displace carbonate ion as it is more electronegative. The resulting copper (II) sulphate solution when cooled can easily crystalize
Premium Sulfuric acid Sulfur Carbon
del Río‚ a Spanish-born Mexican mineralogist‚ in 1801 [1]. Some sources say Vanadium is soft because it is ductile [1]. Vanadium is harder than most metals and steels [1] It is resistant to corrosion and it is stable against alkalis‚ sulfuric and hydrochloric acids[1]. It is oxidized in air at about 933 K (660 °C‚ 1220 °F) [1]. This paper will discuss the effects of Vanadium on the environment and Vanadium’s properties. Chemical Properties: Vanadium is a transitional metal. Its atomic number
Premium Oxygen Soil Oxide
THE IMPORTANCE OF ELECTROLYSIS IN OUR DAILY LIFE “Electrolysis is the passage of an electric current through an electric current through an electrolyte with subsequent migration of positively and negatively charged ions to the negative and positive electrodes. “ 1 Electrodes are metals that are capable to conduct electricity through the solution used in electrolysis. During electrolysis‚ positive and negative electrodes are needed. The positive electrode (anode) experiences oxidation
Premium Hydrogen Electrolysis Electrode
mimicking the volcano. The volcanic eruption will release quantities of sulfur dioxide and the gas quickly formed tiny droplets of sulfuric acid‚ which acted like minuscule mirrors and reflected some of the sun’s rays back into space. Based on this situation‚ there is one another geoengineering approach to reduce global warming is to mimic the volcanic action by spraying sulfuric acid droplets into the stratosphere. But this approach is not perfect
Free Carbon dioxide Global warming Volcano
Data table and observations SOLUTION | DOES IT CONDUCT? | + (ANODE) | - (CATHODE) | Potassium Chloride (KCl) | Yes | Bubbles | More bubbles than in anode | Glucose (C6H12O6) | No | Nothing changes | Nothing changes | Dilute Sulfuric Acid (H2So4) | Yes | Bubbles | Bigger bubbles | Sucrose (C12H22O11) | Yes | Light bubbles | Light but more visible bubbles and light brown liquid | Copper Sulfate (CuSo4) | Yes | Light bubbles | Changes color to brown and oxidation is observed
Premium Potassium Sulfuric acid Sodium chloride
Experiment #5: Acid Burn!!! Introduction The goal of this lab was to correctly prepare a 0.2M solution of NaOH‚ identify highly acidic household cleaning chemicals‚ and determine their concentration (molarity) through titrations using the previously prepared 0.2M NaOH solution. Experimental First‚ to create 0.5L of 0.2M solution of NaOH‚ standard 3M NaOH solution was obtained. Next‚ calculations were performed to determine the amount 3M NaOH necessary to create 0.5L of the 0.2M solution and‚ as
Premium Chemistry Sodium hydroxide Base