Interpretation: To write the reaction of potassium and hydrogen and predict the properties of the compound formed.
Concept introduction: The reaction of elements with hydrogen produces either ionic metal hydrides or molecular compounds. The reaction of hydrogen with metals produces ionic metal hydrides. The electronegativity of hydrogen is more than metals and hence, metals bear positive charge and hydrogen has a negative charge. Thus, the oxidation number of hydrogen in ionic metal hydrides is
Alkali metals are very reactive and form compounds with chlorides, oxides, hydrides and water. There is a transfer of electrons from metals to non-metals and thus ions are formed where metals have a positive charge and non-metals are negatively charged. Thus, alkali metals generally form ionic compounds and react vigorously to produce compounds with non-metals.
Physical properties of a substance are used to describe the solid by observing certain parameters related to it. Physical properties of any substance include colour, appearance, state, odour, melting and boiling point, texture, density and solubility.
The colour of a substance depends on various factors which are related to the number of electrons present in the substance. Matter can be classified as solid, liquid or gas. Matter in the solid state has fixed shape and volume, Matter in the liquid state has fixed volume but takes shape of the container in which it is filled. Matter in the gaseous state does not have fixed shape and volume. The appearance, texture and colour can be determined by looking at the substance. The melting and boiling point is determined by heating the substance.
The chemical property of a substance is predicted by its reaction with other compounds, chemical stability and heat of formation and combustion of that substance.

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Chapter 21 Solutions
Chemistry and Chemical Reactivity - AP Edition
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- Provide the semi-developed formula of isooxazole obtained by reacting acetylacetone and hydroxylamine.arrow_forwardGiven a 1,3-dicarbonyl compound (R1-CO-CH2-CO-R2), indicate the formula of the compound obtaineda) if I add hydroxylamine (NH2OH) to give an isooxazole.b) if I add thiosemicarbazide (NH2-CO-NH-NH2) to give an isothiazole.arrow_forwardAn orange laser has a wavelength of 610 nm. What is the energy of this light?arrow_forward
- The molar absorptivity of a protein in water at 280 nm can be estimated within ~5-10% from its content of the amino acids tyrosine and tryptophan and from the number of disulfide linkages (R-S-S-R) between cysteine residues: Ε280 nm (M-1 cm-1) ≈ 5500 nTrp + 1490 nTyr + 125 nS-S where nTrp is the number of tryptophans, nTyr is the number of tyrosines, and nS-S is the number of disulfide linkages. The protein human serum transferrin has 678 amino acids including 8 tryptophans, 26 tyrosines, and 19 disulfide linkages. The molecular mass of the most dominant for is 79550. Predict the molar absorptivity of transferrin. Predict the absorbance of a solution that’s 1.000 g/L transferrin in a 1.000-cm-pathlength cuvet. Estimate the g/L of a transferrin solution with an absorbance of 1.50 at 280 nm.arrow_forwardIn GC, what order will the following molecules elute from the column? CH3OCH3, CH3CH2OH, C3H8, C4H10arrow_forwardBeer’s Law is A = εbc, where A is absorbance, ε is the molar absorptivity (which is specific to the compound and wavelength in the measurement), and c is concentration. The absorbance of a 2.31 × 10-5 M solution of a compound is 0.822 at a wavelength of 266 nm in a 1.00-cm cell. Calculate the molar absorptivity at 266 nm.arrow_forward
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