
(a)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(a)

Explanation of Solution
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value
The statements are given below:
Qualitative statement: Water is a colour less liquid.
Quantitative statement: Water freezes at
(b)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(b)

Explanation of Solution
The statements are given below:
Qualitative statement:carbon is a black colour solid.
Quantitative statement: carbon has Density is
(c)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(c)

Explanation of Solution
The statements are given below:
Qualitative statement:iron Rusts easily
Quantitative statement iron Density is
(d)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(d)

Explanation of Solution
The statements are given below:
Qualitative statement:hydrogen gas Colourless gas
Quantitative statement hydrogen gas Melts at
(e)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative &Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(e)

Explanation of Solution
The statements are given below:
Qualitative statement: sucrose tastes sweet
Quantitative statement: 179 g of sucrose dissolve in 100g of
(f)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(f)

Explanation of Solution
The statements are given below:
Qualitative statement:salt Taste salty
Quantitative statement: salt Melts at
(g)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(g)

Explanation of Solution
The statements are given below:
Qualitative statement:mercury Liquid at room temperature
Quantitative statement: mercury Boils at
(h)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(h)

Explanation of Solution
The statements are given below:
Qualitative statement:gold is aprecious metal.
Quantitative statement: gold have Density of
(i)
Interpretation:
The following qualitative statement&quantitative statement should be written down with the explanation.
Concept Introduction:
Qualitative properties: These are the properties observed and can’t be measured with the numerical value.
Quantitativeproperties:
These are the properties observed and can be measured with the numerical value.
Quantitative statement:
Quantitative data is information about quantities.
Example: weight measurement, shoes size, length etc.
Qualitative statement:
It is the information about the quality.
Example: Softness of your skin, the color of the sky, etc.
Differentiating between Qualitative & Quantitative statement:
A qualitative property of a system doesn’t required manuscript measurement.
A quantitative property of a system requires measurement and can be expressed with a number.
(i)

Explanation of Solution
The statements are given below:
Qualitative statement:air a mixture of gases
Quantitative statement: air Contain 20% oxygen by volume
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Chapter 1 Solutions
Chemistry
- Consider this IR and NMR: INFRARED SPECTRUM TRANSMITTANCE 0.8- 0.6 0.4 0.2 3000 10 9 8 00 HSP-00-541 7 CO 6 2000 Wavenumber (cm-1) сл 5 ppm 4 M Which compound gave rise to these spectra? N 1000 1 0arrow_forwardConsider this reaction (molecular weights are under each compound): HC=CH + 2 HCI --> C2H4Cl 2 MW = 26 36.5 99 If 4.4 g of HC=CH are reacted with 110 mL of a 2.3 M HCI solution, and 6.0 g of product are actually produced, what is the percent yield?arrow_forwardWhat is the name of the major product of this reaction? OH CH3 H₂SO4, heat 1-methylcyclohexene O2-methyl-1-cyclohexene O 3-mthylcyclohexene 1-methyl-2-cyclohexenearrow_forward
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- K 44% Problem 68 of 15 Submit Curved arrows are used to illustrate the flow of electrons. Using the provided starting and product structures, draw the curved electron-pushing arrows for the following reaction or mechanistic step(s). Be sure to account for all bond-breaking and bond-making steps. :6: :: :CI: CI CI: :0:0 Select to Add Arrows Select to Add Arrows H H Cl CI: CI CI: Select to Add Arrows Select to Add Arrows H :CI: Alarrow_forwardI I H :0: Submit Curved arrows are used to illustrate the flow of electrons. Using the provided starting and product structures, draw the curved electron-pushing arrows for the following reaction or mechanistic step(s). Be sure to account for all bond-breaking and bond-making steps. 0:0 :0: CI ΑΙ :CI: :CI: :0: CI Select to Add Arrows Select to Add Arrows cl. :0: Cl © ハ CI:: CI H CO Select to Add Arrows Select to Add Arrows 10: AI ::arrow_forwardI need the most help figuring out how to find [I^-] mol/ L, [S2O8^2-] mol/L. 1st and 2nd Blank columns.arrow_forwardCan someone help me whats the issue?arrow_forwarda. The change in the Gibbs energy of a certain constant pressure process is found to fit the expression: AG-85.1 J mol −1 +36.5 J mol ¹K-1 × T A. Calculate the value of AS for the process. B. Next, use the Gibbs-Helmholtz equation: (a(AG/T)) ΔΗ - T2 to calculate the value of AH for the process.arrow_forwardarrow_back_iosSEE MORE QUESTIONSarrow_forward_ios
- Chemistry: The Molecular ScienceChemistryISBN:9781285199047Author:John W. Moore, Conrad L. StanitskiPublisher:Cengage Learning
