When copper sulfate reacts with sodium hydroxide solution, a precipitate of copper hydroxide and a solution sulfate are formed
Answers
If you ionize this species, it results in Na⁺ + SO₄²⁻
∴ sulphate species is SO₄²⁻ (OPTION D)
Related Questions
Type in the correct values to correctly represent the valence electron configuration of oxygen: AsB2pC
A =
B =
C =
Answers
Answer: A=2, B=2 and C=4
Explanation: Oxygen is the element with atomic number 8 and thus contains 8 electrons which are filled in order of increasing energy levels.
[tex]O:8:1s^22s^22p^4[/tex]
The valence electrons are electrons which are present in the valence shell i.e. the last shell. Thus the valence electrons of Oxygen are in shell 2 in which s orbital contains two electrons and the p orbital contains 4 electrons.
Thus A= 2, B=2 and C=4.
Answer:
The correct number of valance electrons in the electronic configuration of Oxygen is:
A=2, B=2, and C=4
Explanation:
The atomic number of oxygen is 8
The electronic configuration will be,
[tex]\rm O_8\rightarrow1s_2,2s_2,2p_4[/tex]
The electrons present in the outermost shell is called valence electrons.
Hence, in the second shell, the s-orbital contains 2 electrons and the p-orbital contains 4 electrons.
If all the electrons in the outermost shell are removed the first shell becomes a valance shell where 2 electrons are present in the s-orbital.
Therefore correct valence electron configuration is 2,2,4.
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In naming the compound pcl5 the prefix used with the second element is
Answers
pcl5 is Phosphorus pentachloride
goodluck out there, partner :-)
In PCl₅, P the first element is phosphorus. Cl is the second element chlorine and chlorines ide name is chloride. PCl₅ is called as phosphorus pentachloride.
What is phosphorus pentachloride ?A crystalline substance that is greenish-yellow in color and has an offensive smell is phosphorus pentachloride. Water breaks it down into heat, hydrochloric acid, and phosphoric acid. This heat may be enough to start nearby combustible stuff on fire.
It is quite similar to identifying basic ionic compounds to name binary (two-element) covalent compounds. The first component of the formula is only the element's name mentioned. By taking the element name's stem and adding the suffix -ide, the second element is given a name.
Prefixes are used to define the number of atoms of each element in a compound's molecule because molecules of molecular compounds might generate compounds with varied ratios of their constituent elements. Ones that come to mind include SF6, sulfur hexafluoride,
Thus, PCl₅ is called as phosphorus pentachloride.
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Write out the balanced equation for the reaction that occurs when Ca and NaCl react together. You do not need to make your subscripts smaller; just write them out as regular numbers. For example: H2O.
Answers
Ca + NaCl = CaCl2 + Na
To have the complete balanced reaction, it should be balanced where the number of each atom in the reactant side and the product side would be equal. The balanced chemical reaction would be:
Ca + 2NaCl = CaCl2 + 2Na
As we can see we have 1 calcium atom in each side, 2 sodium atom and 2 chlorine atoms in each side. This reaction is an example of a single displacement reaction where calcium displaces sodium and bonding with the chloride ion forming another salt.
What is the net ionic equation of the reaction of mgso4 with bacl2? express your answer as a chemical equation?
Answers
Mg²⁺ + SO₄²⁻ + Ba²⁺ + 2Cl⁻ → Mg²⁺ + 2Cl⁻ + BaSO₄
SO₄²⁻ + Ba²⁺ → BaSO₄ (the net ionic equation)
A technician has been given 250 ml of 15% acetic acid solution. the pharmacist has asked the tech to dilute the solution to 500 ml with sterile water and to label the solution. what percentage should appear on the label
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The problem is about diluting a 15% acetic acid solution to a larger volume. After diluting the solution from 250 ml to 500 ml, the new percentage concentration of the acetic acid solution is 7.5%. Hence, the label should read 7.5% acetic acid.
Explanation:The problem you presented is a typical one in chemistry, which involves the concept of percentage concentration and dilutions. Initially, we have 250 ml of a 15% acetic acid solution. The amount of acetic acid in the solution is therefore 0.15 * 250 = 37.5 g.
The technician adds enough water to the solution to make the total volume 500 ml. However, the amount of acetic acid doesn't change; it remains 37.5g. To find the new percentage of the acetic acid solution, we take the total mass of the acetic acid (37.5g) and divide it by the total volume of the solution (500 ml), then multiply by 100% to get the percentage:
(37.5g / 500ml) * 100% = 7.5%.
So, the label on the solution should say 7.5% acetic acid.
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What process measures the amount of a solution of known concentration required to react with a measured amount of a solution of unknown concentration?
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hope this helped :)
Titration is the process that measures the amount of a solution of known concentration required to react with a measured amount of a solution of unknown concentration.
Explanation:The process that measures the amount of a solution of known concentration required to react with a measured amount of a solution of unknown concentration is called titration. Titration is a quantitative chemical analysis method that involves measuring the volume of a reactant solution required to completely react with the analyte in a sample. The volume of the titrant solution is used to calculate the concentration of the analyte using the stoichiometry of the titration reaction.
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A reversible reaction at equilibrium can counteract the stress of an increase in pressure by:
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Given that the pressure is directly proportional to the number of molecules of gas, by driving the reaction toward the side where the number of molecules decreases the pressure will be relief, at least partially.
This is a classical application of Le Chatelier's principle.
Thermal energy will transfer from object A to object B if:
A. The motions of the molecules in object B are faster than those of object A.
B. The temperature of object A is higher than that of object B.
C. The average kinetic energy of the molecules in object A is lower than object B.
D. Object B is hotter than object A.
I think it's B? Please help.
Answers
Answer:
B. The temperature of object A is higher than that of object B.
Explanation:
Thermal energy always transfers from hotter object to colder one. Temperature indicates the hotness and coldness of a body. In a hotter body, molecules move faster and thus, their average kinetic energy would be greater.
If thermal energy will transfer from object A to object B, then the temperature of object A would be higher than that of object B. Also, its molecules would move faster and would have greater average kinetic energy.
Which graph is used to show change in a given variable when a second variable is changed?
Answers
Why is a pencil used to mark the chromatogram instead of pen?
Answers
If a pen is used, this process will actually seperate the components of the ink inside the pen causing sopts and stains. On the other hand, this process cannot do this for the lead of the pencil.
A certain radioactive element has a half-life of one hour. if you start with 1.0 gram of the element at noon, how much of the radioactive element will be left at 2 p.m.? 0.50 grams 0.25 grams 0.125 grams 0.0 grams
Answers
I just took this test and that was the answer to it.
Answer:
The radioactive element will be left at 2 p.m. will be 0.25 g.
Explanation:
Half life of the radioactive element =[tex]t_{\frac{1}{2}}=1 hour[/tex]
Initial concentration of the radioactive element = [tex]N_o[/tex]=1.0 g
Time elapsed = 12:00 pm to 2:00 pm = 2 hours
Concentration of radioactive element left = N
[tex]\lambda =\frac{0.693}{t_{\frac{1}{2}}}=\frac{0.693}{1 hr}=0.693 hr^{-1}[/tex]
[tex]\log N=\log N_o-\frac{\lambda t}{2.303}[/tex]
Putting the given values in the above equation we get:
N = 0.25 gram
The radioactive element will be left at 2 p.m. will be 0.25 g.
Which of the following represents a hydrocarbon that contains one double bond somewhere in the carbon chain?
alkane
alkene
alkyne
substituted hydrocarbon
I know it's not C, alkyne
Answers
An alkane is a saturated hydrocarbon, thi is it has only single bonds.
Alkenes and alkynes are unsaturated: alkenes have double bonds and alkynes have triple bonds.
Subsituted hydrocarbon, is a hydrocarbon with one hydrogen substituted by another element or a group.
For example:
CH3 - CH - CH3
|
F
An alkene is a hydrocarbon with one or more carbon-carbon double covalent bonds, and is the correct answer to the question.
Explanation:An alkene is a hydrocarbon with one or more carbon-carbon double covalent bonds. Alkenes have the general formula CnH2n assuming non-cyclic structures. They can be represented by the formula RCH=CHR', where R and R' are any atoms or groups of atoms attached to the carbons.
An alkyne is a hydrocarbon with one or more carbon-carbon triple covalent bonds. Alkynes have the general formula CnH2n-2, and can be represented by the formula RC≡CR', where R and R' are any atoms or groups of atoms attached to the carbons.
Based on these definitions, the hydrocarbon that contains one double bond somewhere in the carbon chain is an alkene.
In ammonium chloride salt (nh4cl) the anion is a single chloride ion, cl. what is the cation of nh4cl
Answers
NH₄⁺ (the ammonium cation)
Describe how water can be a liquid at room temperature but neither of its elements are liquid at room temperature
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The correct symbol for the ion formed by nitrogen is:
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The ion formed by nitrogen is N³⁻, also known as a nitride ion. In an ionic compound with aluminum, Al³⁺ forms the cation, and C⁴⁻ forms the anion called the carbide ion.
The correct symbol for the ion formed by nitrogen is N³⁻. Nitrogen, being in group 15 of the periodic table, is a nonmetal and thus forms negative ions, known as anions. A nitrogen atom will gain three electrons to achieve the electron configuration of neon, the next noble gas, resulting in the formation of a nitride ion with a 3- charge.
Is aluminum homogeneous or heterogeneous?
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please mark as brainliest
A chemical bond that forms when atoms share electrons is always a(n) _________________________.
Answers
Due to the uneven or even sharing of electrons, there can be polar or Nonpolar bonding.
What is the [H3O+] of a solution with a pH of 2.56? 2.56 M, 2.75 x 10-3 M, 363 M, or -0.408 M
Answers
pH=-lg[H₃O⁺]
[H₃O⁺]=10^(-pH)
[H₃O⁺]=10⁻²·⁵⁶=0.00275=2.75×10⁻³ mol/L
2.75×10⁻³ M
Answer:
The concentration of hydronium ions in solution is [tex]2.75\times 10^{-3} M[/tex].
Explanation:
The pH of the solution is defined as negative logarithm of hydronium ions concentration in a solution. Mathematically written as:
[tex]pH=-\log[H_3O^+][/tex]
Given, the pH of the solution = 2.56
[tex]2.56=-\log[H_3O^+][/tex]
[tex][H_3O^+]=0.002754 M=2.75\times 10^{-3} M[/tex]
The concentration of hydronium ions in solution is [tex]2.75\times 10^{-3} M[/tex].
When is alpha particle emission most likely to occur?
A. When the nucleus has more than 83 protons.
B.When the ratio of neutrons to protons in the nucleus is too high to be stable. C.When the nucleus has a mass of more than 83 amu.
D. When the ratio of neutrons to protons in the nucleus is not exactly balanced.
Answers
Alpha particles need equivalent amounts of protons and electrons to be stable.
The alpha particle emission is most likely to occur when the ratio of neutrons to protons present in the nucleus of an atom is too high to be stable.
What is an atom?An atom can be defined as the smallest unit of matter which then forms an element. Every form of matter whether solid,liquid , gas is made of atoms . Each atom has a nucleus which is composed of protons and neutrons and shells in which the electrons revolve.
The protons are positively charged particles in an atom and neutrons are neutral in charge as the charges are cancelled and hence the nucleus is positively charged species. The electrons which revolve around the nucleus are negatively charged and hence the atom as a whole is neutral and stable due to presence of oppositely charged particles.
Atoms of the same element are similar to one another as they have same number of sub- atomic particles which on combining do not alter the chemical properties of the substances.
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Chemistry balance skeleton reaction? Balance the following skeleton reactions and identify the oxidizing and reducing agents.; include states-of-matter please! 1.BH4‾(aq) + ClO3‾(aq) → H2BO3‾(aq) + Cl ‾(aq) [basic] 2.CrO42-(aq) + N2O(g) → Cr3+(aq) + NO(g) [acidic]
Answers
The given reactions are balanced, with the first reaction not requiring any adjustment and the second reaction being balanced as 2CrO42-(aq) + 3N2O(g) → 6Cr3+(aq) + 3NO(g). The oxiding agents are ClO3¯ and CrO42- for the first and second reactions, respectively. The reducing agents are BH4¯ and N2O for the first and second reactions, respectively.
Explanation:First, it's essential to know that during oxido-reduction reactions, one substance loses electrons (oxidized) and another gains them (reduced). We call the substance oxidized to be the reducing agent and the one reduced to be the oxidizing agent.
For the first reaction BH4¯(aq) + ClO3¯(aq) → H2BO3¯(aq) + Cl¯(aq), there aren't any charges or states of matter to be balanced. Analyzing the oxidation states, the B in BH4¯ goes from -3 to +3, showing it has been oxidized. Thus, BH4¯ is the reducing agent. ClO3¯ reduces to Cl¯, thus ClO3¯ is the oxidizing agent.
Moving on to the second reaction CrO42-(aq) + N2O(g) → Cr3+(aq) + NO(g), balance the equation first by adjusting coefficients to get 2CrO42-(aq) + 3N2O(g) → 6Cr3+(aq) + 3NO(g). This reaction is in an acidic solution, so it's important to note that hydroxide ions do not appear in half-reactions occurring in an acidic solution. SO, in this reaction too, Cr in CrO42- goes from +6 to +3, signifying reduction, making CrO42- the oxidizing agent. N in N2O goes from +1 to +2 which signifies oxidation, marking N2O as the reducing agent.
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What are the two categories of chemical sedimentary rock?
Answers
Rank these compounds by highest boiling point to lowest boiling point? Pentane, neopentane, isopentane
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The compounds ranked by boiling point from highest to lowest are: Pentane > Isopentane > Neopentane.
The boiling point of a compound is influenced by its intermolecular forces.
Compounds with stronger intermolecular forces tend to have higher boiling points because more energy is required to overcome those forces and convert the substance from a liquid to a gas.
Generally, the strength of intermolecular forces increases with increasing molecular size and surface area.
Pentane is a linear hydrocarbon with five carbon atoms in a row. It has the highest boiling point among the three compounds because it has the greatest molecular size and surface area.
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The enzyme urease catalyzes this reaction. If urease is added to a solution that contains ammonia and other nitrogen-containing compounds (but no urea), will the urease catalyze any reactions? E
Answers
Urease is an enzyme.
Enzymes are highly specific in the reactions they catalyze.
Enzymes can typically bind only to the substrate(s) for the reaction they catalyze.
If the solution contains no urea, urease will not bind to any of the substances in the solution, so it will not catalyze any reactions in the solution.
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Which of the following is not a step in balancing redox reactions in acidic solution, using the half-reaction method?
A) H2O and OH- are added as needed to the half-reaction equations to make the number of oxygen and hydrogen atoms balance.
B) Divide the chemical equation into two half-reaction equations, identifying which half-reaction is oxidation and which is reduction.
C) H2O and H+ are added as needed to the half-reaction equations to make the number of oxygen and hydrogen atoms balance.
D) Multiply each term in one of the half-reaction equations by a factor that will make the number of electrons lost (in the oxidation) equal to the number of electrons gained (in the reduction).
Answers
Answer:
The answer would be A). H2O and OH- are added as needed to the half-reaction equations to make the number of oxygen and hydrogen atoms balance.
How many moles of HNO3 are present if 2.50×10−2 mol of Ba(OH)2 was needed to neutralize the acid solution?
Answers
2 mol HNO₃ - 1 mol Ba(OH)₂
x mol HNO₃ - 2.50×10⁻² mol Ba(OH)₂
x=2.50×10⁻²×2/1=0.05 mol
The number of moles of HNO3 present is 5.00×10^-2 mol.
Explanation:In the given neutralization reaction:
Ba(OH)2 (aq) + 2HNO3(aq) → Ba(NO3)2(aq) + 2H₂O(1)
It's clear that 2 moles of HNO3 are needed to neutralize 1 mole of Ba(OH)2. Therefore, if 2.50×10−2 mol of Ba(OH)2 was needed to neutralize the acid solution, we can calculate the number of moles of HNO3 as follows:
Number of moles of HNO3 = 2.50×10−2 x 2 = 5.00×10−2 mol
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What is the oxidizing agent in galvanic cell?
Answers
Answer:
Anode
Explanation:
A p e x
The guy that said cathode was wrong :(
Which would least strongly attract electrons from other atoms in a compound? elements of group 1
elements of group 2
elements of group 15
elements of group 17
Answers
The elements with the least chances to attract electrons from the other atoms are group 1 elements. Thus option A is correct.
The elements attract or lose electrons in order to attain a stable configuration. The system has been based on the number of valence electrons in the atom.
The atom with the least electronegativity has the changes to give up the electrons, and the least chance to attract the electrons from the other atoms.
The group 1 elements have 1 valence electrons, and thus have the high chances to give the electron, with the least chances to attract electrons from the other compounds. Thus option A is correct.
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What would happen to the concentration of the products if more reactants were added to a reaction that was in chemical equilibrium? how would this addition affect the equilibrium?
Answers
Adding more reactants will cause the rate of forward reaction to increase (the equilibrium will shift to the left) in order to form more products and compensate for the increase of reactants. The concentration of products will gradually increase till a new equilibrium is reached.
Final answer:
Adding reactants to a chemical reaction at equilibrium will cause an increase in the concentration of products as the system shifts to the right to re-establish equilibrium. The equilibrium constant remains the same, indicating the ratio of products to reactants remains constant at the new equilibrium state.
Explanation:
When additional reactants are added to a chemical reaction that is in equilibrium, the system will respond according to Le Chatelier's Principle. The concentration of the products will increase as the reaction shifts to the right in an effort to re-establish equilibrium by converting the added reactants into products. The equilibrium is said to be 'shifted to the products' or 'shifted to the right' as a result of this stress.
In a specific example, if more Fe is added to a reaction at equilibrium, the concentration of products would increase as the reaction consumes some of the added Fe to form more product. Similarly, if H₂O is removed from an equilibrium mixture, the reaction will shift to produce more H₂O, resulting in an increased concentration of H₂O and a reduced concentration of the products that would form when H₂O is used as a reactant. If H₂ is added to the mixture, the reaction will shift to use up the added H₂, leading to an increased production of products and a decrease in H₂ concentration until the new equilibrium is established.
Ultimately, when the system reaches a new equilibrium after the addition of reactants or removal of products, the concentrations of reactants and products will be different from the initial state, but the equilibrium constant (Kc) for the reaction will remain the same. This indicates that at the new equilibrium, the ratio of products to reactants remains constant even though their individual concentrations may have changed.
A reaction produces 0.819 moles of h2o. how many molecules are produced?
Answers
0.819 moles H2O ( 6.022 x 10^23 molecules / 1 mole) = 4.93x10^23 molecules
The number of molecules of H2O produced would be 4.93x10^23 molecules.
Which process is spontaneous? electrolysis of water into oxygen and hydrogen spreading of a strong fragrance of perfume in a room separation of sodium and chlorine from sodium chloride removal of iron fillings from a mixture by using a magnet?
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Among all the given options, the correct option is option B. Spreading of a strong fragrance of perfume in a room is a spontaneous process.
What is spontaneous process?A spontaneous process refers to one that happens by itself, without external energy input. A ball would roll down an incline, water will flow downward, melting ice into water, radioactive elements will degrade, and iron will rust, for instance.
A nonspontaneous process is the opposite of a spontaneous process; it requires the addition of energy to take place. For instance, rust doesn't spontaneously transform back into iron; a daughter isotope cannot return towards its parent state. Spreading of a strong fragrance of perfume in a room is a spontaneous process.
Therefore, the correct option is option B.
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The spontaneous process among the options is the spreading of a strong fragrance of perfume in a room, driven by diffusion. The other processes require external energy to occur and are not spontaneous.
Among the processes listed, the only spontaneous process is the spreading of a strong fragrance of perfume in a room. This is due to the natural tendency of particles to move from an area of higher concentration to an area of lower concentration, a process driven by diffusion.
The other processes mentioned are not spontaneous and require external energy to occur:
Electrolysis of water into oxygen and hydrogen: This is a nonspontaneous process which requires an external electric current to drive the decomposition of water.Separation of sodium and chlorine from sodium chloride: This also requires considerable energy input, typically through electrolysis.Removal of iron fillings from a mixture using a magnet: While the action of using a magnet is simple, it requires an external intervention to perform the separation.