Videos
(a)
Interpretation:
The difference between continuous spectrum and discrete line spectrum in scientific terms is to be stated.
Concept introduction:
Each element produces a unique spectrum that is used to identify the elements. There are many possible transitions of electrons in principal energy level. Some of them are more probable and some are less probable. Some are present in visible spectral range, some are present out of visible spectral range.
Answer to Problem 91E
A continuous spectrum gives continuous change in colors while discrete line spectrum gives discrete color lines, which are separated by particular distance.
Explanation of Solution
A spectrum which contains continuous change in colors is called continuous spectrum, it does not contains distinct separation of colors. The distance between two energy states in continuous spectrum is almost equal to zero. This spectrum gives the white light. Discrete line spectrum gives discrete colors line and they are separated by particular distance.
A continuous spectrum gives continuous change in colors while discrete line spectrum gives discrete color lines, which are separated by particular distance.
(b)
Interpretation:
The difference between quantized and continuous in scientific terms is to be stated.
Concept introduction:
An amount that is limited to specific values and may never be between two of those values, is called quantized. An amount that can have any value between any two values is called continuous. There is an infinite number of other acceptable value.
Answer to Problem 91E
An amount is said to be quantized if it is limited to specific values, while an amount is said to be continuous if it have any value between any two values.
Explanation of Solution
An amount is said to be quantized if it is limited within the range of some given specific values and may never be between two of those values. An amount is said to be continuous if it have any random value between two of those values. A line spectrum is quantized but a spectrum of white light is continuous.
An amount is said to be quantized if it is limited to specific values, while an amount is said to be continuous if it have any value between any two values.
(c)
Interpretation:
The difference between ground state and excited state in scientific terms is to be stated.
Concept introduction:
The electron is normally found in its ground state. The ground state is the conditions when the electron is in
Answer to Problem 91E
Ground state is the lowest possible energy level in which electrons are arranged, while in excited state electrons are not arranged is the lowest possible energy level.
Explanation of Solution
The possible lowest energy level in which electrons are arranged is known as ground state. Initially an electron stayed in its ground state energy level. If an atom absorbs energy, it undergoes excitation and jumps from lower energy level to the higher energy level, which is known as excited state.
Ground state is the lowest possible energy level in which electrons are arranged, while in excited state electrons are not arranged is the lowest possible energy level.
(d)
Interpretation:
The difference between principal energy level and principal quantum number in scientific terms is to be stated.
Concept introduction:
Niels Bohr made a huge contribution to the development of modern atomic theory. Bohr introduced the idea of quantized electron energy levels in the atom. These levels appear in modern theory as quantum energy levels, which are identified by the principal quantum number,
Answer to Problem 91E
The principal energy level is identified by the principal quantum number, which represent the energy levels of orbitals.
Explanation of Solution
The principal energy level is identified by the principal quantum number. The principal quantum number represents the energy of orbitals. The first principal energy level is
The principal energy level is identified by the principal quantum number, which represent the energy levels of orbitals.
(e)
Interpretation:
The difference between
Concept introduction:
Niels Bohr suggested that an atom consists of an extremely dense nucleus. This nucleus contains all of the atom’s positive charge and nearly all of its mass and negatively charged electrons of very small mass travel in orbits around the nucleus. The quantum mechanical model keeps the quantized energy levels that Bohr introduced, which is appeared in the quantum theory as principal energy levels
Answer to Problem 91E
Bohr model successfully described the structure and properties of hydrogen atom, while quantum mechanical model succeed in disrobing hydrogen and multi electron atoms.
Explanation of Solution
Bohr model suggested a reasonable explanation for the atomic line spectra in terms of electron energies. Bohr also introduced the idea of quantized electron energy levels in the atom. These levels appear in modern theory as principal energy levels and these principal energy levels are identified by the principal quantum number,
Bohr model successfully described the structure and properties of hydrogen atom, while quantum mechanical model succeed in disrobing hydrogen and multi electron atoms.
(f)
Interpretation:
The difference among principal energy level, sublevel, and orbital in scientific terms is to be stated.
Concept introduction:
The number of shells in the atom is equal to the principal energy levels. The region in space where the probability of finding electrons is maximum which is represented by the sublevel. In the sublevel the most probable location of the electrons in three dimensional view is explained by an orbital.
Answer to Problem 91E
The principal energy level represents the energy of orbitals. Sublevel represents the maximum probability of finding electrons within the region. The most probable location of the electrons in three dimensional view is explained by orbital.
Explanation of Solution
The principal energy level is identified by the principal quantum number. The principal quantum number represents the energy of orbitals. Sublevels indicate the energies that are associated with the electrons. There is one sublevel for each principal energy level, which contains one orbital. In the sublevel the most probable location of the electrons in three dimensional view is explained by an orbital.
The principal energy level represents the energy of orbitals. Sublevel represents the maximum probability of finding electrons within the region. The most probable location of the electrons in three dimensional view is explained by orbital.
(g)
Interpretation:
The difference among the sublevels
Concept introduction:
The principal energy levels are identified by the principal quantum number,
Answer to Problem 91E
The energy of each principal energy levels spread over a range related to the sublevels. The energy increase in the order of sublevels
Explanation of Solution
The total number of sublevels or orbitals within a given principal level is equal to the principal quantum number,
The energy of each principal energy levels spread over a range related to the sublevels. The energy increase in the order of sublevels
(h)
Interpretation:
The difference between orbit, and orbitals in scientific terms is to be stated.
Concept introduction:
The three dimensional region in space where the probability of finding electrons is maximum is called an orbital. An orbit is defined as the fixed path around which electrons revolve. An orbital is embedded in an orbit.
Answer to Problem 91E
The three dimensional region in space where the probability of finding electrons is maximum is called an orbital. An orbit is the fixed path around which electrons revolve around the nucleus of atoms.
Explanation of Solution
The region in space around a nucleus in which there is a high probability of finding of electron. The region is called orbitals. An orbit is defined as the fixed circular path of nucleus in which electrons revolve around the nucleus of atoms.
The three dimensional region in space where the probability of finding electrons is maximum is called an orbital. An orbit is the fixed path around which electrons revolve around the nucleus of atoms.
(i)
Interpretation:
The difference among first, second, third ionization energies in scientific terms is to be stated.
Concept introduction:
The ionization energy is the measurement of energy, which is required to remove an electron from a neutral atom. An atom acquires a positive charge when it removes an electron from its valence shell. The valence shell electron is loosely bind, which is easily removed.
Answer to Problem 91E
The energy required to remove one electron from a neutral gaseous atom of an element is called first ionization energy. The energy required to remove second electron from
Explanation of Solution
The energy required to remove one electron from a neutral gaseous atom of an element is called first ionization energy. The energy required to remove second electron from
The energy required to remove one electron from a neutral gaseous atom of an element is called first ionization energy. The energy required to remove second electron from
(j)
Interpretation:
The difference between metal, nonmetal, metalloid, and semimetal in scientific terms is to be stated.
Concept introduction:
Those elements that have tendency to form positive ion by losing electrons are called metals. The elements that have tendency to form anions by gaining electrons are called nonmetal. Metalloids are the elements that have some properties of both metal and nonmetal.
Answer to Problem 91E
Metals are the elements that have tendency to form positive ion by losing electrons and nonmetal are the elements that have tendency to form anions by gaining electrons. Metalloids or semimetals are the elements having the properties of both metal and nonmetal.
Explanation of Solution
A metal hast tendency to form positive ion by losing electrons. Thus, metals are electropositive elements. A nonmetal has tendency to form anions by gaining electrons. Thus, nonmetals are electronegative elements. Most of the elements next to the stair-step line have some properties of metal and nonmetal. These elements are called metalloids or semimetals.
Metals are the elements that have tendency to form positive ion by losing electrons and nonmetal are the elements that have tendency to form anions by gaining electrons. Metalloids or semimetals are the elements that have some properties of both metal and nonmetal.
Want to see more full solutions like this?
Chapter 11 Solutions
Bundle: Introductory Chemistry: An Active Learning Approach, 6th + LMS Integrated for OWLv2, 4 terms (24 months) Printed Access Card
- If I have 10 data points for variables x and y, when I represent y versus x I obtain a line with the equation y = mx + b. Is the slope m equal to dy/dx?arrow_forwardThe data for the potential difference of a battery and its temperature are given in the table. Calculate the entropy change in J mol-1 K-1 (indicate the formulas used).Data: F = 96485 C mol-1arrow_forwardIn a cell, the change in entropy (AS) can be calculated from the slope of the E° vs 1/T graph. The slope is equal to -AS/R, where R is the gas constant. Is this correct?arrow_forward
- Using the Arrhenius equation, it is possible to establish the relationship between the rate constant (k) of a chemical reaction and the temperature (T), in Kelvin (K), the universal gas constant (R), the pre-exponential factor (A) and the activation energy (Ea). This equation is widely applied in studies of chemical kinetics, and is also widely used to determine the activation energy of reactions. In this context, the following graph shows the variation of the rate constant with the inverse of the absolute temperature, for a given chemical reaction that obeys the Arrhenius equation. Based on the analysis of this graph and the concepts acquired about the kinetics of chemical reactions, analyze the following statements: I. The activation energy (Ea) varies with the temperature of the system. II. The activation energy (Ea) varies with the concentration of the reactants. III. The rate constant (K) varies proportionally with temperature. IV. The value of the…arrow_forwardIn an electrolytic cell, indicate the formula that relates E0 to the temperature T.arrow_forward-- 14:33 A Candidate Identification docs.google.com 11. Compound A can transform into compound B through an organic reaction. From the structures below, mark the correct one: HO A تھے۔ די HO B ○ A) Compounds A and B are isomers. B) Both have the same number of chiral carbons. C) Compound A underwent an addition reaction of Cl2 and H2O to form compound B. D) Compound A underwent a substitution reaction forming the intermediate chlorohydrin to obtain compound B. E) Compound A underwent an addition reaction of Cl2 forming the chloronium ion and then added methanol to obtain compound B. 60arrow_forward
- -- 14:40 A Candidate Identification docs.google.com 13. The compound 1-bromo-hex-2-ene reacts with methanol to form two products. About this reaction, mark the correct statement: OCH3 CH3OH Br OCH3 + + HBr A B A) The two products formed will have the same percentage of formation. B) Product B will be formed by SN1 substitution reaction with the formation of an allylic carbocation. C) Product A will be formed by SN1 substitution reaction with the formation of a more stable carbocation than product B. D) Product A will be formed by an SN2 substitution reaction occurring in two stages, the first with slow kinetics and the second with fast kinetics. E) The two compounds were obtained by addition reaction, with compound B having the highest percentage of formation. 57arrow_forward-- ☑ 14:30 A Candidate Identification docs.google.com 10. Amoxicillin (figure X) is one of the most widely used antibiotics in the penicillin family. The discovery and synthesis of these antibiotics in the 20th century made the treatment of infections that were previously fatal routine. About amoxicillin, mark the correct one: HO NH2 H S -N. HO Figura X. Amoxicilina A) It has the organic functions amide, ester, phenol and amine. B) It has four chiral carbons and 8 stereoisomers. C) The substitution of the aromatic ring is of the ortho-meta type. D) If amoxicillin reacts with an alcohol it can form an ester. E) The structure has two tertiary amides. 62arrow_forwardThe environmental police of a Brazilian state received a report of contamination of a river by inorganic arsenic, due to the excessive use of pesticides on a plantation on the riverbanks. Arsenic (As) is extremely toxic in its many forms and oxidation states. In nature, especially in groundwater, it is found in the form of arsenate (AsO ₄ ³ ⁻ ), which can be electrochemically reduced to As ⁰ and collected at the cathode of a coulometric cell. In this case, Potentiostatic Coulometry (at 25°C) was performed in an alkaline medium (pH = 7.5 throughout the analysis) to quantify the species. What potential (E) should have been selected/applied to perform the analysis, considering that this is an exhaustive electrolysis technique (until 99.99% of all AsO ₄ ³ ⁻ has been reduced to As ⁰ at the electrode, or n( final) = 0.01% n( initial )) and that the concentration of AsO ₄ ³ ⁻ found in the initial sample was 0.15 mmol/L ? Data: AsO ₄ 3 ⁻ (aq) + 2 H ₂ O ( l ) + 2 e ⁻ → A s O ₂ ⁻ ( a…arrow_forward
- -- 14:17 15. Water-soluble proteins are denatured when there is a change in the pH of the environment in which they are found. This occurs due to the protonation and deprotonation of functional groups present in their structure. Choose the option that indicates the chemical bonds modified by pH in the protein represented in the following figure. E CH2 C-OH CH2 H₂C H₁C CH CH3 CH3 CH CH₂-S-S-CH₂- 910 H B -CH2-CH2-CH2-CH₂-NH3* −0—C—CH₂- ○ A) A, C e D. • В) Вес ○ C) DeE ○ D) B, De E ○ E) A, B e C 68arrow_forwardSuppose sodium sulfate has been gradually added to 100 mL of a solution containing calcium ions and strontium ions, both at 0.15 mol/L. Indicate the alternative that presents the percentage of strontium ions that will have precipitated when the calcium sulfate begins to precipitate. Data: Kps of calcium sulfate: 2.4x10 ⁻ ⁵; Kps of strontium sulfate: 3.2x10 ⁻ ⁷ A) 20,2 % B) 36,6 % C) 62,9 % D) 87,5 % E) 98.7%arrow_forward14:43 A Candidate Identification docs.google.com 14. The following diagrams represent hypothetical membrane structures with their components numbered from 1 to 6. Based on the figures and your knowledge of biological membranes, select the correct alternative. | 3 5 || 人 2 500000 6 A) Structures 1, 3, 5, 2 and 4 are present in a constantly fluid arrangement that allows the selectivity of the movement ○ of molecules. Structure 4, present integrally or peripherally, is responsible for this selection, while the quantity of 6 regulates the fluidity. B) The membranes isolate the cell from the environment, but allow the passage of water-soluble molecules thanks to the presence of 2 and 3. The membrane in scheme is more fluid than that in 55arrow_forward
Introductory Chemistry: An Active Learning Approa...ChemistryISBN:9781305079250Author:Mark S. Cracolice, Ed PetersPublisher:Cengage Learning
Physical ChemistryChemistryISBN:9781133958437Author:Ball, David W. (david Warren), BAER, TomasPublisher:Wadsworth Cengage Learning,
Chemistry: Matter and ChangeChemistryISBN:9780078746376Author:Dinah Zike, Laurel Dingrando, Nicholas Hainen, Cheryl WistromPublisher:Glencoe/McGraw-Hill School Pub Co
World of Chemistry, 3rd editionChemistryISBN:9781133109655Author:Steven S. Zumdahl, Susan L. Zumdahl, Donald J. DeCostePublisher:Brooks / Cole / Cengage Learning
Introductory Chemistry: A FoundationChemistryISBN:9781337399425Author:Steven S. Zumdahl, Donald J. DeCostePublisher:Cengage Learning