Sodium chloride is soluble in water but silica does not. Hence, addition of water to the sample will separate sodium chloride out.
What is chemical separation?There are various methods to separate the individual chemical compounds from a mixture of them based on their physical or chemical properties. Distillation, filtration, chromatography, magnetic separation etc are some of the separation methods.
Based on the solubility of compounds, the salts can be separated using a separating funnel by adding a suitable solvent.
For example an acid and its salt can be separated by adding an inorganic acid solvent where the salt is soluble and forms aqueous layer and the acid forms a separate organic layer.
Sodium chloride is highly soluble in water, whereas, silica does not dissolve in water. Because of the presence of oxide layer on silica it is insoluble in water.
Thus, by adding water to the sample the silica will deposits under and the salt solution can be removed out.
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Molecules can be either positively or negatively charged depending upon their elemental arrangement
Sound is not part of a electromagnetic spectrum because
A: Sound is not a type of energy wave
B: Sound is not a type of electromagnetic radiation
C: Sound does not have a wavelength
D: Sound does not have a frequency
What unusual property of water is responsible for frost wedging?
in the preceding information section there is a "bohr's diagram" of an atom. Which atom is it?
Bohr's Diagram primely illustrates an atom's unique arrangement of electrons, protons, and neutrons. Specifics of the diagram like the number and arrangement of electrons in the shells would let us identify which atom it refers to.
Explanation:Without the preceding information showing the Bohr's diagram, it's truly impossible to pinpoint which specific atom it represents. A Bohr's diagram typically includes a central nucleus, denoting protons and neutrons, with surrounding energy levels or shells that signify electrons. Each atom has a unique arrangement of electrons, so the specific makeup of the diagram would determine which atom it's representing. For instance, Hydrogen, the simplest atom, would have a diagram with 1 electron at its outermost shell whereas Carbon would have 6 electrons spread across two energy levels. Please provide the details of the diagram for more specific identification.
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If 0.35 m of ammonia solution has a ph of 9.15, what is the h+ concentration of the solution?
To find the H+ concentration of an ammonia solution with a pH of 9.15, we use the inverse logarithm of the negative pH value, which gives a H+ concentration of 7.08 imes 10^-10 M.
If the pH of a 0.35 M ammonia solution is 9.15, we can calculate the H+ concentration using the pH formula. The formula for pH is pH = -log[H+], where [H+] represents the concentration of hydrogen ions in moles per liter (M). To find [H+], we take the inverse logarithm (antilog) of the negative pH value:
[H+] = 10-pH
Plugging in the pH value given:
[H+] = 10-9.15 = 7.08 imes 10-10 M
Therefore, the concentration of H+ ions in the ammonia solution is 7.08 imes 10-10 M.
What do all of the elements in a given horizontal row of the periodic table have in common?
The elements in a given period (horizontal row) have the same number of electron shells in their atoms.
What are periods in the periodic table?The horizontal row in the modern periodic table is called period. All elements placed in a period have the same number of electron shells. Each next element in a period exceed one proton and so has less metallic character than its precursor.
The atomic number increases on moving left to right in a period that tells that number of electrons and protons increases in an atom. As in a period, elements have filled the same electron shells, but an increase in the number of electrons in the same shell causes an increase in the effective nuclear charge. Therefore, the atomic radius of an atom of the elements decreases in a period.
Therefore, the elements in the same period have the same number of electron shells. For example, all elements of the second period have only two electron shells.
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How many oxygen atoms are in 1.40 g of quartz?
Final answer:
To find the number of oxygen atoms in 1.40 g of quartz, calculate the number of moles of quartz and use Avogadro's number to convert to oxygen atoms, accounting for two oxygen atoms per mole of SiO₂.
Explanation:
To determine how many oxygen atoms are in 1.40 g of quartz (SiO₂), we need to perform a series of calculations using the molar mass of quartz and Avogadro's number. First, we find the molar mass of quartz by adding the molar mass of silicon (28.085 g/mol) and twice the molar mass of oxygen (2 × 15.999 g/mol), which equals 60.083 g/mol. Next, we calculate the number of moles of quartz in 1.40 g using the molar mass:
Number of moles of SiO₂ = 1.40 g / 60.083 g/mol
Finally, since each mole of SiO₂ contains two moles of oxygen atoms, we use Avogadro's number (6.022 × 10²³ atoms/mol) to find the total number of oxygen atoms:
Number of oxygen atoms = Number of moles of SiO₂ × 2 × Avogadro's number
Completing the calculations provides the answer to how many oxygen atoms are in 1.40 g of quartz.
Which of these factors make hydrogen fuel cells a better option than burning fossil fuels?
Hydrogen fuel cells have a higher energy efficiency.
Hydrogen fuel cells create less pollution.
Burning fossil fuels relies on outdated devices and technology.
Pure hydrogen is more readily available than fossil fuels.
Hydrogen fuel cells are more expensive than fossil fuels.
Answer:
Hydrogen fuel cells have a higher energy efficiency.
Hydrogen fuel cells create less pollution.
Explanation:
Hydrogen fuel cell is an electrochemical cell which employs hydrogen gas to produce electricity and water.In this cell chemical energy of hydrogen gas is converted into electrical energy.
Advantages of hydrogen fuel cell:
It directly converts chemical energy into electrical energy.Only emission of water and little heat that is it creates less pollution.Much more reliable source of energy.Highly efficient energy resource.Extraction of hydrogen can be done without harming an environment than the extraction of other fossil fuels and oil which causes damage.The flame symbol represents which of the following hazards?
fire hazard
heat hazard
electrical hazard
explosive hazard
it is (#1 fire hazard
which sentence correctly describes the position of electrons within an atom?
A. Electrons exist outside the nucleus in indistinct electron clouds
B. electrons orbit the nucleus in distinct circular paths
c. electrons are attatched to the outside of the nucleus
d. electrons orbit the nucleus in uniform concentric circles
Answer: B. electrons orbit the nucleus in distinct circular paths
Explanation: Electrons are found in shells or orbitals that surround the nucleus of an atom.
During a flame test, a lithium salt produces a characteristic red flame. This red color is produced when electrons in excited lithium atoms
1. are lost by the atoms
2. are gained by the atoms
3. return to lower energy states within the atoms
4. move to higher energy states
The red color in a lithium salt flame test is due to electrons returning to lower energy states, emitting light at specific wavelengths. This is part of the atomic emission spectrum of lithium, with each metal displaying a unique flame color when heated.
The red color produced in a flame test when a lithium salt is subjected to heat is due to the electrons in the excited lithium atoms returning to lower energy states within the atoms. This phenomenon is a part of the atomic emission spectrum of lithium. When the lithium atoms in the flame are heated, their electrons are excited to higher energy levels. As the electrons fall back down to their original energy states, they emit light of specific wavelengths. The characteristic red color observed is due to this emission corresponding to the particular energy gap between the excited and ground states of the lithium electron.
Flame tests are commonly used to identify the presence of certain metal ions in compounds. Each metal emits a distinct color when burned, as the emission spectrum of each element is unique. For instance, sodium produces a bright yellow flame, and potassium produces a lilac color. In the context of lithium, the emission results in a bright, crimson flame, which is indicative of lithium's presence in the sample tested.
What particles in an atom can increase or decrease without changing the identity of the element?
what country was the element hydrogen discovered in
Final answer:
Hydrogen was discovered in England by Henry Cavendish in 1766. While this discovery was unrelated to celestial observations as in the case of helium, hydrogen is the most abundant element in the universe and essential in the composition of stars.
Explanation:
The element hydrogen was discovered in England, not in the context of celestial observations but as an earthly element. The first recognized discovery of hydrogen is attributed to the English scientist Henry Cavendish in 1766. Cavendish identified hydrogen as a distinct species by performing experiments in which he reacted metals with strong acids to produce a gas. However, its importance and the role it plays in the universe were not completely understood at that time. Later discoveries, like that of helium in the sun's spectrum, showcased the extensive presence of elements like hydrogen in outer space, being central to the composition of stars like our Sun.
Although the student's question seems slightly mixed up with the discovery of helium, it provides a good opportunity to explore not only the terrestrial elements but also those found in the cosmic environment. Hydrogen is the most abundant element in the universe and plays a vital role in the constitution of stars and many compounds on Earth.
What mass of magnesium chloride is needed to make 100.0 mL of a solution that is 0.500 M in chloride ion?
For the angular momentum quantum number l=2 , how many possible values are there for the magnetic quantum number (m subscript l)?
1
3
5
8
The angular momentum quantum number l = 2 corresponds to 5 possible values for the magnetic quantum number m, which are -2, -1, 0, 1, and 2.
For the angular momentum quantum number,
l = 2, the number of possible values for the magnetic quantum number (m) is given by the formula 2l + 1. Plugging in
l = 2, we get 2(2) + 1 = 5 possible values.
Therefore, the values of m that are possible for
l = 2 are -2, -1, 0, 1, and 2, which confirms that there are 5 possible values for the magnetic quantum number when l is 2.
Granite is a ________ that contains the mineral quartz. a. mineral c. rock b. glass d. mica
Ionization energy and electron affinity both express the general attraction of an atom for
Ionization energy is the energy required to remove an electron from an atom. Meanwhile, Electron affinity is the energy required to add an electron to an atom. So we can see that the two are opposite variables. However, they both refers to general attraction of an atom for “electron”.
An element has the electronic configuration 1s22s22p63s23p63d104s24p65s2. identify the element.
The electron configuration given corresponds to Strontium (Sr), which is element number 38 on the periodic table and ends with the 5s² subshell being filled after the noble gas krypton's (Kr) electron configuration.
The element with the electron configuration 1s2s²2p⁶3s²3p⁶3d¹⁰4s²4p⁶5s² is Strontium (Sr). It is identified by examining the electron configuration and matching it to the position on the periodic table. The electron configuration ends with 5s², following the noble gas krypton (Kr), and two additional electrons in the 5s orbital indicate that we move two places beyond krypton in the periodic table. This corresponds to the element with atomic number 38, which is Strontium (Sr).
Which equation represents the reaction of acetic (ethanoic) acid with water?
CH3COO- + H2O CH3COOH + OH-
CH3COOH + H2O CH3COO- + H3O+
CH3COO- + H2O CH3COO2- + H3O+
CH3COOH + H2O CH3COOH2+ + OH-
Answer:
in shorter terms, the answer is B. CH3COOH + H2O CH3COO- + H3O+
Explanation:
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What is the molar mass of a pure gaseous compound having a density of 2.95 g/l at 32⁰c and 860 mm hg? (1 atm = 760 mm hg)?
To find the molar mass of the gaseous compound, we used the Ideal Gas Law and calculated it to be approximately 65.65 g/mol.
The given conditions were converted and used properly to solve the problem.
This approach ensures an accurate determination of molar mass.To find the molar mass of the gaseous compound, we use the Ideal Gas Law equation: PV = nRT. First, we need to convert all given units to proper SI units and ensure consistency.Given data:
Density (ρ) = 2.95 g/LTemperature (T) = 32°C = 305 K (since T(K) = T(°C) + 273.15)Pressure (P) = 860 mm Hg = 1.132 atm (since 1 atm = 760 mm Hg)We know from the Ideal Gas Law:
PV = nRTRearranging to solve for molar mass (M):
M = (ρRT) / PSubstitute the values:
M = (2.95 g/L * 0.0821 L atm/mol K * 305 K) / 1.132 atmCalculate the result:
M ≈ (2.95 * 25.041) / 1.132 ≈ 65.65 g/molTherefore, the molar mass of the compound is approximately 65.65 g/mol.
What is a major source of calcium and sodium in oceans?
A) air pollutants
B) gases from active volcanoes
C) minerals dissolved in aquifers
D) weathering and erosion of rocks
The answer is D. weathering and erosion of rocks
What effect would a decrease in ph have on the amount of potassium ion in the urine?
A 55.9 g sample of water at 99.2 °c is placed in a constant pressure calorimeter. then, 23.9 g of zinc metal at 21.1 °c is added to the water and the temperature drops to 96.9 °c. what is the specific heat capacity of the zinc metal measured in this experiment?
Heat capacity is the amount of heat required to raise the temperature of the system by 1 degree Celsius. Thus the specific heat capacity of zinc is 0.0071 calorie / (g °C).
What is Enthalpy?Enthalpy term is basically used in thermodynamics to show the overall energy that a matter have. Mathematically, Enthalpy is directly proportional to specific heat capacity of a substances.
Mathematically,
Enthalpy=mass of solution ×specific heat capacity of solution ×Change in temperature.
Heat released by the water = 55.9 g × 1 calorie/ (°C g) ×(99.2 - 96.9 )°C
Heat absorbed by the zinc metal = 23.9 g ×specific heat ×(96.9 - 21.1) °C
Heat absorbed by zinc metal = heat released by water
23.9 × Specific heat of zinc metal ×75.8 = 55.9 ×1 ×2.3
specific heat of zinc metal = 128.57 ÷1811.62 = 0.0071 calorie / (g °C)
Thus the specific heat capacity of zinc is 0.0071 calorie / (g °C)
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Does oxygen have a greater mass than chlorine
Final answer:
An oxygen molecule (O₂) has a mass of 32, whereas a chlorine molecule (Cl₂), taking into account the natural abundances of Cl-35 and Cl-37, has an average mass of approximately 70.9. Thus, chlorine has a greater mass than oxygen.
Explanation:
The student asked whether oxygen has a greater mass than chlorine. When comparing the masses of these elements, it's essential to consider the mass of their most common isotopes. Oxygen has a common isotope of oxygen-16 with a mass number of 16, while chlorine has two common isotopes, chlorine-35 with a mass number of 35 and chlorine-37 with a mass number of 37. Therefore, an oxygen molecule (O₂), which contains two oxygen atoms, has a mass of 32, while a chlorine molecule (Cl₂) would on average weigh approximately 35.5 times two due to the natural abundance of its isotopes, making it about 70.9.
This indicates that a molecule of chlorine has a greater mass than a molecule of oxygen. However, solubility of these gases in various solvents can also be related to molecular size and interactions, such as dispersion forces and dipole-dipole attractions. For example, oxygen's solubility in hexane is significantly greater than its solubility in water, illustrating the effect of these interactions on solubility.
Sunlight is slowed MOST when traveling through
Answer:
Diamond
Explanation:
The speed of sunlight depends upon the refractive index of the medium, Diamond has the highest refractive index.
Is electron affinity the opposite of ionization energy?
In an electron-dot structure of an element, the dots are used to represent ________.
Lewis electron dot diagrams represent valence electrons around atomic symbols, aiding in predicting bonding capabilities. Valence electrons' importance in chemical reactivity is highlighted through electron-dot symbols in Lewis diagrams.
Lewis electron dot diagrams use dots to represent valence electrons around an atomic symbol. These dots are arranged to the right and left, above, and below the symbol, indicating the valence electrons. For example, in the Lewis structure for hydrogen, it is represented by a single dot.
Valence electrons are crucial in determining an atom's reactivity and bonding capabilities. Electron-dot symbols help predict the number of bonds an element can form in a compound. In Lewis diagrams, dots represent the valence electrons, while lines denote bonds formed between atoms.
Potassium and bromine combine to make KBr. What is the name of this compound?
Because the core of the sun is so hot, what heavier element is created when hydrogen atoms fuse together in the sun's core?
Answer is: helium.
Nuclear reaction is in the inner core of the Sun and hydrogen is conveted into helium.
The inner core is the central region of the Sun and all solar energy is produced in the core by nuclear fusion.
The Sun interior is divided into three regions: the inner core, the radiative zone and the convection zone.
Helium (symbol: He) is an element with atomic number 2 (2 protons) and mass number 4 (2 neutrons; n° = 4 - 2 = 2).
Which would make the best primary material for a new coin: a metal, nonmetal, metalloid? Explain please! I’ll give Brianliest answer!
Answer:
best primary material for a new coin: a metal,
Explanation:
As metal has the capacity to be molded and melted to a solid object to take the shape of a new coin and from the rounded shape as compared to the non- metal the material must be of a high-grade quality or otherwise it cannot withstand the pressure and durability for making the new coin. While a metalloid is a type of chemical element which is a mix of metal and a non-metal as boron, silicon, germanium, arsenic and does not show the best properties for the formation into a new coin. These have various elements and mineral properties involved in their formation.