The specific heat capacity of the metal is 35.34 J/g/°C, if the specific heat capacity of the water is 4.18 J/g/°C.
Volume of water = 200 ml
Density of water = 1 gm/ml
So the mass of the water in coffee cup, m₁ = 200×1 = 200 gm
Initial temperature of water, T₁ = 22.1°C
Specific heat capacity of water, S₁ = 4.18 J/g/°C
Mass of the metal, m₂ = 5.1 gm
Initial temperature of the metal, T₂ = 48.6°C
Final combined temperature of both, T = 26.8°C
Let the specific heat capacity of the metal = S₂
Heat gain by the water = heat loss in the metal
S₁ × m₁ × (T-T₁) = S₂ × m₂ × (T₂-T)
4.18 × 200 × (26.8-22.1) = S₂ × 5.1 × (48.6-26.8)
3929.2 = S₂ × 111.18
S₂ = 3929.2/111.18
S₂ = 35.34 J/g/°C
So, the specific heat capacity of the metal is 35.34 J/g/°C.
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You guys are working hard on this school work... You guys deserve to take a break, come hang out with me.
Answer:
hggggggggggggggggggggggggggggggggggggsssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssss
Explanation:
jjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjj
A large dam was constructed across a river to create a reservoir on one side. This led to the sinking of nearby forests, which
impacted plants and animals and caused a decrease in biodiversity, Trees were also cut down to construct the dam, which led to
increased soil erosion and reduced soil fertility.
A scientist wants to reduce the impact of the dam's construction and improve the biodiversity of the ecosystem. Which solution
should the scientist choose?
A. relocating people to live in the area around the dam
B. planting trees around the reservoir to decrease soil erosion
c. using synthetic fertilizers to improve soil fertility
OD. building a small series of dams on nearby streams
Answer:
B
Explanation:
One of the main problems is the soil erosion reducing the fertitlity of the soil, thus reducing it's chances of the soil helping plant growth, thus reducing biodiversity. The other selections worsen the problem.
Determine the number of atoms of each element in the following: 4Fe2O3
Answer:
hi, I haven't done this in a while, but I think this is it!
Explanation:
20
8 Iron Atoms
12 Oxygen Atoms
Where does the linkage between the -COOH group on one end of one molecule and the -NH2 group at the end of another molecule occur
The peptides amino acids form peptide linkages between -COOH and -NH2 groups in protein.
What do you mean by peptides?
Peptides are short chains of amino acids that are linked together by peptide bonds. They are found in all living organisms and play important roles in many biological processes, such as cell signaling, hormone production, and metabolism. Peptides can range in size from two to hundreds of amino acids and can be made up of different combinations of amino acids.
Peptide bonds are formed when the carboxyl group (COOH) of one amino acid reacts with the amino group (NH2) of another amino acid. This creates a peptide bond, which is a covalent bond between the two amino acids. As proteins are made up of many amino acids, this process of forming peptide bonds is what links the amino acids together to form a protein.
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the efficiency of the turbines and generators is 80%
calculate the useful output energy transfer from the hydroelectric power station in 1 minute
use your answer to part (b)
What is the osmotic pressure in atm of
a 0.50 M urea solution at 25.0°C?
Assume R = 0.0821 Latm/molk
Enter text here
Answer:
12.2329 atm
Explanation:
Applying
PV = nRT.................... Equation 1
Make P the subject of the equation
P = (n/V)RT................ Equation 2
Where P = Osmotic pressure, (n/V) = Molarity of urea, T = Temperature, R = molar gas constant.
From the question,
Given: (n/V) = 0.5 M, T = 25°C = (273+25) = 298 K, R = 0.0821 Latm/mol.K
Substitute these values into equation 2
P = (0.5)(298)(0.0821)
P = 12.2329 atm
Help shegshshbdhshdbbshdjdhsnsjsjekeke
Answer:
i think is true..
The theoretical yield of a reaction is 5.00 moles of potassium permanganate (KMnO4) . If the reaction actually produces 616.2 g KMnO4 , what is the percent yield of the reaction
The theoretical yield of a reaction is 5.00 moles of potassium permanganate . If the reaction actually produces 616.2 g KMnO₄ , the percent yield of the reaction is 78 %.
given that :
the theoretical yield of the reaction = 5 mol
mass of the potassium permanganate = 616.2 g
molar mass of the potassium permanganate = 158 g /mol
moles of the KMnO₄ = mass / molar mass
= 616.2 / 158
= 3.9 moles
the percent yield = ( experimental yield / theoretical yield ) × 100 %
= ( 3.9 / 5 ) ×100 %
= 78 %
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A 0.0200 M NaCl solution was formed when 38.0 grams of NaCl was dissolved in
enough water. What was the total volume of the solution formed? (5 points)
Answer: The volume of the solution formed will be 32.5 L. Explanation: Molarity is defined as the amount of solute present in 1 L of solution. The equation used to determine molarity of the solution follows: We are given: Molarity of the solution = 0.02 mol/L Mass of NaCl = 38 grams Molar mass of NaCl = 58.5 g/mol Putting values in above equation, we get: Hence, the volume of the solution formed will be 32.5 L.
The total volume of the solution will be 21.66 L
What is solution?A solution is a uniformly dispersed mixture of more than one solute in a solvent. The type of substance under which a solute is dissolved to form a homogenous mixture is called a solvent. The substance that dissolves in a solvent to generate a homogenous mixture is referred to as a solute.
Calculation of volume of the solution with the aid of molarity is shown as:
Molarity = moles of solute / volume of solution in L.
Moles = mass / molar mass.
It is given that, molarity of NaCl = 0.0200 M
Mass of NaCl = 38 g
Molar mass of NaCl = 58.44 g/mol.
Moles of NaCl can be calculated as:
Moles of NaCl = mass of NaCl / molar mass of NaCl
= 38 g/ 58. 44 g/mol
= 0.650 mols.
Volume of NaCl solution can be calculated as:
Molarity = moles of solute / volume of solution in L.
0.0200 M = 0.650 moles/ Volume
Volume = 0.650 moles/ 0.0300 M
Volume = 21.66 L
Therefore, the volume of the solution will be 21.66 L.
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An ideal gas (which is is a hypothetical gas that conforms to the laws governing gas behavior) confined to a container with a massless piston at the top. (Figure 2) A massless wire is attached to the piston. When an external pressure of 2.00 atm is applied to the wire, the gas compresses from 6.40 to 3.20 L . When the external pressure is increased to 2.50 atm , the gas further compresses from 3.20 to 2.56 L .
In a separate experiment with the same initial conditions, a pressure of 2.50 atm was applied to the ideal gas, decreasing its volume from 6.40 to 2.56 L in one step.
If the final temperature was the same for both processes, what is the difference between q for the two-step process and q for the one-step process in joules?
Answer: -162,120J
Explanation:
Okay, so q stands for work, given by the formula q = -P∆V,
For the first round, we have 2atm (for P) and a volume change of 3.2 (6.4-3.2) for the first experiment.
Find the work: q = -2 • (3.2 - 6.4) = 6.4L/atm
For the second experiment, it is now 2.5atm, with the change in volume going from 3.2 to 2.56.
So, work is q = -2.5(2.5 - 3.20) = 1.6L/atm
Add the total work: 1.6 + 6.4 = 8L/atm
To find the Joules per L/atm, recall that a mol of gas in K is 8.31447J, while the gas constant where a liter of gas per mol in K is 0.08206L/atmK. Divide these two values, which leaves us with 101,325J
So, for the first round, multiply 8 x 101,325, which leaves us with 810,600J.
Second round: The pressure is 2.5atm, with the volume change from 6.40 to 2.56
Solve for work: q = -2.5(2.56-6.4) = 9.6L/atm
Multiply with the Joule unit found earlier: 9.6 x 101,325 = 972,720J.
To find the difference, subtract the value of the single-step process (second round) from the first round (multistep)
810600 - 972720 = -162,120J. Therefore, it takes more heat to do the single step than the multistep process.
If 25.0 mL of 15M nitric acid is diluted to 125 mL, what is the concentration of the new solution?
Answer:2.5M
Explanation:
let the number of moles = x
x/0.025L =15
x= 15*0.025 = 0.375 moles
the concentration of the new solution = moles / volume =
0.375 / (0.025+0.125) = 2.5M
Is 1 mole equal to 1 molecule?
No, a mole doesn't equal a molecule. Despite the fact that the terms "moles" and "molecules" are separate, the idea of "moles" can be used to quantify the number of molecules in a sample.
The primary distinction between a mole and a molecule is that a mole is a unit of measurement for amount whereas a molecule is an atomized chemical species.
A mole of a substance is the same number of molecules of that substance as there are carbon-12 atoms in precisely 12 g of the element. This indicates that the molecular weight of any material, stated in terms of atomic mass units, is equivalent to 1 mole of that substance's weight in grams.
Thus, a mole is an amount of 6.02210²³ particles, whereas a molecule has several atoms of different elements that are chemically connected to one another.
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Consider the following equilibrium: Now suppose a reaction vessel is filled with 0. 0406 atm of nitrogen (N_2) and 5. 97 atm of ammonia (NH_3) at 1126. Degree C. Answer the following question this system: Under these conditions, will the pressure of N_2 tend to rise or fall? rise fall Is it possible to reverse this tendency by adding H_2? In other words, if you said the pressure of N_2 will tend to rise, can that be changed to a tendency to fall adding H_2? Similarly, if you said the pressure of N_2 will tend to fall, can that be changed to a tendency to rise by adding H_2? Yes no If you said the tendency can be reversed in the second question, calculate the minimum pressure of H_2 needed to reverse it. Round your answer to 2 significant digits. Atm
Yes, if we add a lot of H₂, the value of K will start falling, which will cause the reaction to move forward. The minimum pressure of H₂ needed to reverse it is 3.598atm.
Describe pressure.The force applied per area is referred to as pressure.
ΔG° = -RT ln(K)
34000 = 8.314(273 + 1126)ln(K)
ln(K) = 2.9231
K = [tex]e^{2.9231}[/tex] = 18.834
Since the container doesn't contain any H₂ gas, K will therefore start out at infinity. The reaction will move in the opposite direction in order to reach equilibrium. Consequently, the pressure of N₂ will initially rise.
Yes, if we add a lot of H₂, the value of K will start falling, which will cause the reaction to move forward.
The answer is therefore yes.
K = (5.97)²/0.0406(PH₂)³
K = 3.598atm.
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A compound is found to contain 15.94 % boron and 84.06 % fluorine by mass. What is the empirical formula for this compound
The empirical formula of the compound is BF3.
The empirical formula of a compound is the simplest whole-number ratio of atoms that represents the compound's composition. To determine the empirical formula of a compound, we need to determine the number of moles of each element present and then simplify the ratio of moles to the smallest whole-number ratio.
First, we can use the percentages of boron and fluorine to find the number of grams of each element present in 100 grams of the compound:
15.94 g boron / 100 g compound
84.06 g fluorine / 100 g compound
Next, we can convert the number of grams of each element to moles using the molar masses of boron and fluorine:
15.94 g B / (10.81 g/mol) = 1.48 mol B
84.06 g F / (18.99 g/mol) = 4.44 mol F
To find the empirical formula, we divide the number of moles of each element by the lowest number of moles:
1.48 mol B / 1.48 mol B = 1.00
4.44 mol F / 1.48 mol B = 3.00
So the empirical formula of the compound is BF3.
It's important to note that this is the empirical formula, and the actual formula of the compound could be a multiple of this depending on the chemical structure of the compound.
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Chemical Reactions - Problems
4 NH, +5 O, → 4 NO+6H_O
Which of the following are the reactants in the reaction above?
NH,
NO
I
H₂O
Submit v
IT
help please i beg...
A 750.0 mL solution contains 5.00 g of NaOH. If the molar mass of NaOH is 39.9969 g/mol, what is the molarity of the solution? (3 points)
1.25 M NaOH
0.167 M NaOH
5,98 M NaOH
0.0891 M NaOH
help
0.167 is the molarity of the solution. Hence, option B is correct.
What are moles?A mole is defined as 6.02214076 × [tex]10^{23}[/tex]of some chemical unit, be it atoms, molecules, ions, or others. The mole is a convenient unit to use because of the great number of atoms, molecules, or others in any substance.
Molar mass of NaOH = 40
40 g of NaOH = 1 mole
5 g of NaOH = 0.125 moles
1000 ml = 1 L
750 ml = 0.75 L
Molarity = 0.125 ÷ 0.75 = 0.1666
Approximately = 0.167
Hence, option B is correct.
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If the molar mass of NaOH is 39.9969 g/mol, the molarity of a 750.0 mL solution containing 5.00 g of NaOH solution is 0.167. Hence Option (B) is correct
What is Molarity ?Molarity is a measure of the concentration of a chemical species, in particular of a solute in a solution, in terms of amount of substance per unit volume of solution.
In chemistry, the most commonly used unit for molarity is the number of moles per liter, having the unit symbol mol/L or mol/dm³ in SI unit.
Given ;
Molar mass of NaOH = 40If, 40 g of NaOH = 1 mole
Then, 5 g of NaOH = 0.125 moles
If, 1000 ml = 1 L
Then, 750 ml = 0.75 L
Molarity = 0.125 / 0.75
= 0.1666
= 0.167 Approximately
Therefore, If the molar mass of NaOH is 39.9969 g/mol, the molarity of the a 750.0 mL solution containing 5.00 g of NaOH solution is 0.167. Hence Option (B) is correct
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A 40.0 liter gas tank contains 70.0 moles of hydrogen gas. What would be the volume of the tank which could hold 50.0 moles of hydrogen gas at the same temperature and pressure
Answer:
[tex]V_2=28.6L[/tex]
Explanation:
Hello there!
In this case, according to the given information, it is possible for us to solve this problem via the Avogadro's gas law as a way to understand the volume-moles behavior as a directly proportional relationship:
[tex]\frac{V_2}{n_2}=\frac{V_1}{n_1}[/tex]
In such a way, we solve for the final volume as shown below:
[tex]V_2=\frac{V_1n_2}{n_1} \\\\V_2=\frac{40.0L*50.0mol}{70.0mol}\\\\V_2=28.6L[/tex]
Regards!
Amy watches as her teacher adds a small
piece of sodium to water. She makes these
observations.
The sodium moves around on the surface of the water
Bubbles are formed.
After the reaction finished, the teacher added Universal
Indicator to the solution. The indicator went purple.
a) Explain what the bubbles show?
b )Explain why the indicator went purple?
Answer:
Explanation:
A) bubbles show hydrogen gas escaping
B) the water reacted with sodium to form an alkaline solution
( copper is Cu) How many Copper atoms in 3CuSO 4
Need help ASAP !!!!!
A binary covalent bond exists between
A. Any element
B. 2 nonmetals
C. 1met and 1 nonmetal
D. 2 metals
A binary covalent bond exists between 2 nonmetals.
These compounds are termed similarly to binary ionic compounds even though they don't contain ions.
These guidelines apply to the nomenclature of binary covalent compounds:
The complete name of the first element in the formula is given first.
The name of the second element refers to it as an anion.
Prefixes are employed to indicate the number of atoms in a compound. The prefix mono- is dropped if the first element only has one atom.
For instance, carbon monoxide is the name given to CO rather than monocarbon monoxide.
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A 5.05 g sample of quartz (SiO 2) contains 2.36 g of silicon. What are the percentages of silicon and oxygen in quartz
In quartz, silicon has a mass percent of 46.7% while oxygen has a mass percent of 53.3%.
Given the total mass of a sample of quartz (SiO2) (m1) = 5.05g
Mass of silicon (m2) = 2.36g
The percent composition of an element in a chemical compound is referred to as mass percent. Mass percent may be expressed as follows:
mass percent = mass of element/mass of sample x 100
The percent mass of silicon (p1) = 2.36/5.05 x100 = 46.7%
The substance was made of silicon and oxygen.
Thus, 100% Quartz =%Silicon +%Oxygen can be used to express the mass percentage of quartz.
100% Quartz = 46.7% + % Oxygen
% Oxygen = 53.3%
Hence the percentages of silicon and oxygen in quartz are 46.7% and 53.3%.
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What results will the scientist most likely obtain when placing drops of indicator on the leaves
Answer:
Sugar is made through photosynthesis and without light the plant will not produce sugar. so the answer is plant x dark orange and plant y is dark purple.
hope it helps! pleas give me brainliest.
how does the pitcher plant use chemical reactions
Answer: Pitcher plant have adapted themselves to live in poor nutriet soil As they are carnivorous and feed on the insects is the major adptation for them as they does not have proper nutrients,availabilty for the growth.
Explanation:
What are the molecules of aspartame?
Aspartyl-phenylalanine-1-methyl ester, also known as the methyl ester of the dipeptide of the amino acids aspartic acid and the essential amino acid phenylalanine, is the term for an artificial, non-carbohydrate sweetener.
Sweeter than sugar flavoring ingredient that is broken down into phenylalanine and aspartic acid. Aspartyl-phenylalanine-1-methyl ester, also known as the methyl ester of the dipeptide of the amino acids aspartic acid and phenylalanine, is a synthetic, non-carbohydrate sweetener known as aspartame. Aspartic acid is a methyl ester of a dipeptide made up of aspartic acid and phenylalanine, two amino acids. Along with methanol, aspartame is entirely hydrolyzed to its individual amino acids in the digestive system. In the body, aspartame is hydrolyzed into aspartic acid (40%) phenylalanine (50%) and methanol (10%). An amino is aspartic acid.
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What do these symbols mean?
(s):
(l):
(g):
(aq):
Answer:
(s) : Solide
(I) : Liquid
(g) : gas
(aq) : Aqueous
What is the percent composition of YAG (Yttrium Aluminum Garnet). The formula for
YAG is (Y3A15012).
Answer: Y 21.38 % , Al 32.44 % and O 46.16 %
Explanation: Molar mass of YAl5O12 is 88.91 + 5·26.98+12·16
= 415.81 g/mol
m-% ( Y) = 88.91 / 415.81 = 21.38 % , m-% (Al) = 5·26.98 / 415.81 =
32.44 % , rest is Oxygen
Ex: Mg + 2HCl—-> MgCl₂ + H₂ If 4.48L of H₂ gas at STP is
produced in 40 sec, what is the reaction rate in mol/sec?
Answer:
The reaction rate in mol/sec is 0.005.
Explanation:
To determine the reaction rate in mol/sec, you need to first determine the number of moles of H₂ gas produced in the reaction. The volume of a gas at STP (standard temperature and pressure) is directly proportional to the number of moles of the gas, so you can use the volume of H₂ gas produced to calculate the number of moles.
At STP, 1 mole of a gas occupies a volume of 22.4 L. Therefore, the number of moles of H₂ gas produced in the reaction can be calculated as follows:
moles H₂ = 4.48 L / 22.4 L/mol = 0.2 mol
To determine the reaction rate in mol/sec, you need to divide the number of moles of H₂ gas produced by the time it took for the reaction to occur:
reaction rate (mol/sec) = 0.2 mol / 40 sec = 0.005 mol/sec
So, the reaction rate in mol/sec is 0.005.
Help please help me
Answer: It completely dissociates in water is a characteristic of strong acid.
Explanation:
An acid which dissociates completely to give hydrogen ions [tex](H^{+})[/tex] is called a strong acid.
For example, HCl is a strong acid and it dissociates completely as follows.
[tex]HCl \rightleftharpoons H^{+} + Cl^{-}[/tex]
Strong acids are able to conduct electricity in water as more number of ions are present in the solution as compared to the ions present in a solution of weak acid.
Strong acids increase the concentration of [tex]H^{+}[/tex] ions.
Thus, we can conclude that it completely dissociates in water is a characteristic of strong acid.
What happens to the molecules in the room as they change from a liquid to a gas?
When a liquid changes to a gas, the molecules in the room gain enough energy to break the bonds that hold them together in the liquid state.
What are Molecules?
Molecules are the smallest unit of matter that still has the properties of a particular substance. They are made up of two or more atoms that are bonded together. Molecules can be covalent, meaning the atoms in the molecule share electrons, or ionic, meaning one atom has donated electrons to the other.
This energy comes from an increase in temperature, which causes the molecules to move faster and farther apart. As the molecules move around and expand, they fill the room with a vapor or gas.
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