Answer:
wrong in corect
Explanation:
my explanation is it would be el mapa
(mark brainliest)
What part of an atom is detected by stm?
Why is hydrogen located in a group with reactive metals?
Chemical formula for copper I acetate
Final answer:
The chemical formula for copper(I) acetate is CuC₂H₃O₂, formed by combining copper with a +1 oxidation state and the acetate ion CH₃COO- in a 1:1 ratio.
Explanation:
The chemical formula for copper(I) acetate is CuC₂H₃O₂. In this compound, copper(I) has a +1 oxidation state and is paired with the acetate ion, whose formula is CH₃COO- (also written as C₂H₃O₂-). Since the charge of the acetate ion is -1 and copper(I) has a +1 charge, they combine in a 1:1 ratio to form copper(I) acetate. It's important to note the difference between copper(I) and copper(II) compounds, as the latter has an oxidation state of +2 and would form different compounds, such as copper(II) sulfate (CuSO₄).
Which kind of nuclear decay does not alter the identity of the atom?
During heating of the hydrate, loss due to splattering can cause a serious error. if a significant amount of sample is lost, will the calculated waters of hydration be too high or too low? explain.
A significant loss of sample during the heating of a hydrate will result in the calculated waters of hydration being too low. Heating involves breaking intermolecular forces to cause water to evaporate, hence an incorrectly lesser mass used in calculations due to sample splatter will lead to a lower value of water of hydration.
Explanation:If a significant amount of the hydrate sample is lost during heating, the calculated waters of hydration will be too low. This is because the loss of the hydrate due to splattering during the heating process results in a smaller-than-actual mass being used in the calculations for the determination of waters of hydration. To calculate waters of hydration, the mass difference between the unheated and heated samples is divided by the molecular weight of water. A lost sample will cause a smaller mass difference, thus leading to a lower calculated value of water hydration.
Heating a hydrate involves breaking of the intermolecular forces between the water molecules and the ionic compound, causing the water to evaporate, hence it requires a significant amount of heat. If during this process, the sample splatters, the mass measured after heating will be less than expected. This is why a larger sample size and gentle heating procedures are preferred to minimize this error.
Learn more about Hydrates here:
https://brainly.com/question/11202174
#SPJ12
Occasionally, deposition causes the main channel of a stream to divide into several smaller channels called _____.
deltas
oxbow lakes
meanders
distributaries
distributaries ithink
ANSWER: D) distributaries
EXPLANATION: When a deposition causes the main channel of a stream to divide into several smaller channel it is called a distributary. They are a common feature of river deltas and is also known as river bifurcation. A distributary generally occurs near a lake or ocean and can also occur near a confluence of large stream. This is popularly also known as arm or channel.
there are 6.02x10^23 atoms of Hg in 200.6 grams of Hg. calculate the mass of 4.350x10^22 atoms of Hg
Use the atomic weight in the periodic table to determine the equivalent weight of magnesium.
The atomic weight of Magnesium (Mg) is about 24.305 g / mol.
Magnesium when forms an ion can donate two electrons hence forming Mg2+. Since it can donate two electrons, therefore it has an equivalence of 2 equivalence per mole, therefore:
equivalent weight = (24.305 g / mol) * (1 mol / 2 equivalence)
equivalent weight = 12.1525 g / equivalence
How many total atoms are in one molecule of nickel hydroxide, Ni(OH)2?
1
3
4
or 5?
the answer is 5 atoms
what are the primary colors?
Answer:
blue red yellow
Explanation:
What mass of glucose is contained in 500.0 ml of a 5.00% (m/v) solution?
25 grams of glucose is contained in a 500 ml of 5% (m/v) solution.
What are percent solutions?A percent solution is an amount or volume of substance present in 100 ml of solution.It provides a relative expression of mass of solute to the mass of solvent.
They are an easy way to record concentration of solutions.The advantage of percent solutions is that the molecular weight of compound is not identified in the percentage of a required solution.
There are three types of percent solutions:
1) percent mass by volume
2) percent volume by volume
3) percent mass by mass
The given problem is of percent mass by volume type. Herein,volume of solution =500 ml and percent of solution=5%
To find out mass of solute, percent of solution is multiplied by volume of solution and then divided by 100 to get the mass of solute.
mass=5×500/100=25 g
In percent volume by volume , two volumes are present one of solute and one of solution.In percent mass by mass, two masses are present one of which is solute and other is of solution.
Learn more about percent solutions,here:
https://brainly.com/question/18061219
#SPJ6
In a salt solution, what happens to sodium and chloride ions?
Final answer:
In a salt solution, sodium and chloride ions dissociate from each other and become electrolytes, capable of conducting an electrical current in solution.
Explanation:
In a salt solution, sodium and chloride ions dissociate from each other. When table salt (NaCl) is mixed in water, the positive and negative regions on the water molecule attract the negative chloride and positive sodium ions, pulling them away from each other. These ions are electrolytes, capable of conducting an electrical current in solution.
Suggest a way to determine whether a colorless liquid is pure water or a salt solution
Explanation:
It is known that the boiling point of pure water is [tex]100^{o}C[/tex]. But when an impurity or a solute has been added into the water then there occurs an elevation in the boiling point of water.
As a result, addition of a solute into the water will lead to an increase in the boiling point of water.
For example, if common salt (NaCl) is added into water then it will completely dissolve in water leading to the formation of a cleat solution. But when we boil this solution then its boiling point will be greater than [tex]100^{o}C[/tex].
This will prove that it is a salt solution and not a colorless liquid.
Thus, we can conclude that by boiling the given colorless liquid we can determine whether it is a pure water or a salt solution.
To determine if a colorless liquid is pure water or a salt solution, you can perform a conductivity test.
Explanation:A way to determine whether a colorless liquid is pure water or a salt solution is by performing a conductivity test. Pure water has very low conductivity, while a salt solution will have higher conductivity due to the presence of ions. To conduct the test, you can use a conductivity meter or a simple circuit with a bulb and two electrodes.
Start by connecting the circuit and immersing the electrodes into the liquid. If the bulb lights up brightly, it indicates that the liquid is a salt solution. If the bulb remains dim or does not light up at all, it suggests that the liquid is pure water.
Learn more about conductivity test here:https://brainly.com/question/32242484
#SPJ6
Stable nuclei with low atomic numbers, up to 20, have a neutron to proton ratio of approximately ________.
An iron atom has an atomic mass of 56. its atomic number is 26. how many neutrons does it have
True or false atoms are made up of tiny particles called molecules true or false
How does temperature affect the kinetic energy of gas molecules?
Write a net ionic equation to show why solid lithium hydroxide, lioh (s), forms a basic solution when it dissolves in water.
The net ionic equation for the dissolution of lithium hydroxide (LiOH) in water is LiOH(s) -> Li+(aq) + OH-(aq). The hydroxide ions (OH-) created from this process make the solution basic as they can accept H+ ions. Being an alkali metal, lithium forms a strong base when it reacts with water due to the complete dissociation of its hydroxide ions.
Explanation:The topic at hand is the dissolution of solid lithium hydroxide, LiOH (s), in water to form a basic solution. This process can be understood through the concept of the alkali metals reacting with water to form hydrogen gas and a basic solution of the metal hydroxide.
The net ionic equation for this process is:
LiOH(s) -> Li+(aq) + OH-(aq)
When lithium hydroxide (LiOH) dissolves in water, it dissociates into lithium ions (Li+) and hydroxide ions (OH-). It's the OH- ions that make the solution basic, as they can accept H+ ions.
In general, alkali metals like lithium form strong bases when they react with water due to the complete dissociation of their hydroxide ions in the solution. The formation of these hydroxide ions is what characterizes the solution as basic.
Learn more about Lithium Hydroxide Dissolution here:https://brainly.com/question/14582271
#SPJ12
Which hybridization scheme occurs about phosphorus when phosphorus forms a double bond?
Phosphorous has 5 electron
1 bond is double bond. 2 electrons are requred for it
Another 3 electrons can form 3 bonds
SO total number of bonds formed = 4 (3 single bond + 1 doble bond)
Hence hybridization will be SP3
Answer is sp3
Phosphorus exhibits 5 electrons, 1 bond is double bond, and for that two electrons are needed. Another three electrons can produce three bonds.
Therefore, the total numbers of bonds formed will be 4, that is, 3 single bond and 1 double bond. Hence, the hybridization will be SP₃.
The compound barium acetate is a strong electrolyte. write the reaction when solid barium acetate is put into water:
When barium acetate, a strong electrolyte, is dissolved in water, it dissociates entirely into its ions. The reaction is: Ba(C2H3O2)2 (s) -> Ba2+ (aq) + 2 C2H3O2- (aq). The ions separate due to water molecules surrounding and solvating them, thus reducing strong electrostatic forces.
Explanation:The compound barium acetate is a strong electrolyte, which means it dissociates into its ions when dissolved in water. The equation for this reaction is: Ba(C2H3O2)2 (s) -> Ba2+ (aq) + 2 C2H3O2- (aq). This process is known as dissociation.
In this case, barium acetate is a soluble salt and thus it dissociates completely in water. This dissociation process reduces the strong electrostatic forces between ions, with water molecules surrounding and solvating the ions.
For context, barium is a heavier alkaline earth metal that reacts vigorously with water. However, many alkaline earth metal salts, unlike barium acetate, are insoluble in water due to their high lattice energies.
Learn more about Dissociation of Barium Acetate here:https://brainly.com/question/35378584
#SPJ12
Final answer:
Solid barium acetate dissociates into barium ions and acetate ions in water as it is a strong electrolyte. The chemical equation for this process is: Ba(C2H3O2)2 (s) → Ba^2+ (aq) + 2 C2H3O2^- (aq).
Explanation:
The reaction when solid barium acetate is put into water involves the compound dissociating into its constituent ions because it is a strong electrolyte. The chemical equation representing this process is:
Ba(C2H3O2)2 (s) → Ba^2+ (aq) + 2 C2H3O2^- (aq)
This indicates that barium acetate separates into barium ions (Ba^2+) and acetate ions (C2H3O2^-) when it dissolves in water.
Chemical formula for gold III chloride
HELP PLZ :(((((((
how does a rock change into a metamorphic rock?
a)cooling of magma
b)evaporation
c)heat and pressure
d)cementation and compaction
Answer:
c)heat and pressure is the correct answer.
Explanation:
Rock change into a metamorphic rock by heat and pressure.
Metamorphic rocks are formed due to physical and chemical change by heat and pressure of existing rocks. The magma heat warms the enclosing rocks making them change.
The rocks buried underground in the Earth, when they are subjected to heat and pressure these rocks change into metamorphic rocks.The pressure crushes the rock to produce metamorphic rock.
compare uniformitarianism with catastrophism
Which atom in the ground state requires the least amount of energy to remove its valence electron?
Atoms of dissimilar element can not have same atomic number because only similar atoms combine to form element. Therefore, rubidium atom requires the least amount of energy to remove its valence electron.
What is element?Element generally consist of atoms or we can atoms combine to form element. Atoms of an element is always same, means all the features of all atoms of one type of element is same. Two or more than two atoms with dissimilar physical or chemical properties can not combine together to form an element.
For neutral atoms, ionization energy is positive, indicating that ionization is indeed an endothermic process. The higher the ionization energy of an atom, roughly speaking, the nearer the outer electrons are to nucleus. Rubidium atom requires the least amount of energy to remove its valence electron.
Therefore, rubidium atom requires the least amount of energy to remove its valence electron.
To know more about element, here:
https://brainly.com/question/8460633
#SPJ3
Do the periods on the periodic table represent the energy levels for atoms
Very reactive, nonmetals with seven valence electrons is in group ____.
What are valence electrons and why are they so important in chemistry?
Valence electrons are termed to be the electrons that are located at the outermost shell of an atom.
The number of valence electrons for an atomic element can be determined by the group into which the atomic element falls in the periodic table with the exception of transition metals located between group 3 - group 12.
Valence electrons are important in chemistry for the determination of the formation of chemical bonding between atoms because they help to explain information about the properties of the atom such as:
electronegativityionization energyelectron affinityLearn more about valence electrons here:
https://brainly.com/question/12717954?referrer=searchResults
Which pair of atoms has the highest electronegative difference
The highest electronegativity difference is between (d) O-H.
The pair of atoms with the highest electronegativity difference is O - H, with a difference of 1.4. This indicates a polar covalent bond. Electronegativity measures how strongly an atom attracts electrons in a bond.
The question asks which pair of atoms has the highest electronegativity difference. Electronegativity is a measure of how strongly an atom can attract electrons in a bond. Here, we compare the electronegativity differences of several atom pairs:
H - S: The electronegativities are H (2.1) and S (2.5) with a difference of 0.4.
H - Cl: The electronegativities are H (2.1) and Cl (3.0) with a difference of 0.9.
N - H: The electronegativities are N (3.0) and H (2.1) with a difference of 0.9.
O - H: The electronegativities are O (3.5) and H (2.1) with a difference of 1.4.
C - H: The electronegativities are C (2.5) and H (2.1) with a difference of 0.4.
Thus, the pair with the highest electronegativity difference is O - H, with a difference of 1.4. This significant difference indicates a polar covalent bond between oxygen and hydrogen.
The reaction of 11.9 g of chcl3 with excess chlorine produced 11.2 g of ccl4, carbon tetrachloride: what is the percent yield?
How many total atoms are found in one molecule of alpo4?
One molecule of ALPO4 contains a total of 6 atoms, including one aluminum, one phosphorus, and four oxygen atoms.
Explanation:The question asks, How many total atoms are found in one molecule of ALPO4? To answer this, we need to understand the composition of the compound ALPO4, which stands for aluminum phosphate.
This compound is made up of one aluminum atom (Al), one phosphorus atom (P), and four oxygen atoms (O). Therefore, to find the total number of atoms in one molecule of ALPO4, we add up these atoms:
1 Aluminum (Al) atom1 Phosphorus (P) atom4 Oxygen (O) atomsThus, one molecule of ALPO4 contains a total of 6 atoms (1 Al + 1 P + 4 O = 6).