Alkalis | Chemistry for Grade 11 (IGCSE) PDF Download

Neutralisation Reactions

  • When acids are introduced to water, they generate positively charged hydrogen ions (H+), contributing to the solution's acidity.
  • Conversely, when alkalis are added to water, they produce negative hydroxide ions (OH), rendering the solution alkaline.
  • The pH scale serves as a numerical representation indicating the acidity or alkalinity level of a solution, reflecting the concentration of ions within the solution.
  • Neutralization reactions occur when acids interact with alkalis.
  • During a neutralization reaction, the hydrogen ions (H+) from acids combine with the hydroxide ions (OH) from alkalis, resulting in the formation of water.
  • For instance, when hydrochloric acid undergoes neutralization, sodium chloride and water are generated.
    Alkalis | Chemistry for Grade 11 (IGCSE)
  • The simplified ionic equation for acid-alkali neutralizations, which results in a neutral solution due to water's pH of 7, is:
    H+  +  OH ⟶ H2O

Hydrogen Ion Concentration & pH

The pH scale

  • The pH scale is a tool used to determine the acidity or alkalinity of a solution.
  • It ranges from 1 to 14, with values below 7 indicating acidity, above 7 indicating alkalinity, and 7 being neutral
  • Acids have pH values below 7, while alkalis have pH values above 7.
  • A lower pH signifies higher acidity, while a higher pH indicates higher alkalinity.
  • Lemon juice typically has a pH of around 2, indicating strong acidity.
  • Ammonia has a pH of about 11.5, showcasing its alkaline nature.
  • The pH scale showing acidity, neutrality, and alkalinity:
    Alkalis | Chemistry for Grade 11 (IGCSE)
  • Acids contain hydrogen ions in solution.
  • A stronger acid has a higher concentration of hydrogen ions, resulting in a lower pH.
  • The concentration of hydroxide ions determines the pH level, with higher concentrations leading to higher pH values.
  • pH serves as an indicator of the concentration of H+ ions in a solution, with an inverse relationship between pH and the concentration of H+ ions.
  • Universal indicator helps determine pH levels.
    Alkalis | Chemistry for Grade 11 (IGCSE)
  • The pH scale is logarithmic, meaning that each change of 1 on the scale represents a change in concentration by a factor of 10
  • Therefore an acid with a pH of 3 has ten times the concentration of H+ ions than an acid of pH 4
  • An acid with a pH of 2 has 10 x 10 = 100 times the concentration of H+ ions than an acid with a pH of 4

Question for Alkalis
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Which ions contribute to the acidity of a solution when acids are introduced to water?
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Universal Indicator

  • Universal indicator is a blend of different indicators used to measure pH levels.
  • Indicators are substances that change color based on the pH of a solution.
  • A drop of universal indicator is added to a solution, and its resulting color is compared to a color chart for pH determination.
  • The pH scale, along with the Universal Indicator colors, helps determine the pH of a solution by matching colors.
    Alkalis | Chemistry for Grade 11 (IGCSE)
The document Alkalis | Chemistry for Grade 11 (IGCSE) is a part of the Grade 11 Course Chemistry for Grade 11 (IGCSE).
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FAQs on Alkalis - Chemistry for Grade 11 (IGCSE)

1. What is the pH scale and how does it relate to acids and bases?
Ans. The pH scale is a measure of the acidity or alkalinity of a solution. It ranges from 0 to 14, with 7 being neutral, below 7 being acidic, and above 7 being alkaline. Acids have a pH below 7, while bases have a pH above 7.
2. How does Universal Indicator work to determine the pH of a solution?
Ans. Universal Indicator is a mixture of several indicators that change color depending on the pH of a solution. By observing the color change, one can determine the approximate pH of the solution.
3. Can you provide examples of common acids and bases found in everyday life?
Ans. Common acids include citric acid in lemons and acetic acid in vinegar, while common bases include sodium hydroxide in drain cleaner and ammonia in window cleaner.
4. How do acids and bases react with each other to form salts?
Ans. When an acid reacts with a base, they neutralize each other and form a salt and water. This is known as a neutralization reaction.
5. How can the pH of a solution be adjusted using acids and bases?
Ans. By adding an acid to a basic solution, the pH can be lowered, while adding a base to an acidic solution can raise the pH. This process is used in various industries for pH control.
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