Explanation:
There are few simple rules to follow.
(1) The atomic number is equal to the number of protons.
Z
= number of protons
(2) In neutrally charged elements, the number of electrons is the same as the number of protons.
Z
= number of protons = number of electrons (no charge)
Otherwise, positive charge means that the element lost an electron and negative charge means it gained an electron.
(3) The atomic mass is equal to the sum of the number of protons and number of neutrons.
A
= number of protons + number neutrons
or
A
=
Z
+ number neutrons
So if you say that
Z
= 20 and
A
= 40, then
A
=
Z
+ number neutrons
40 = 20 + number of neutrons
40 - 20 = number of neutrons
Therefore,
number of neutrons = 20
a solution is prepared by dissolving 19.8 g of compound ab in enough water to make a 115.1 ml of solution. the density of the solution is 1.14g. calculate the molality of the ab solution?
A solution is made by dissolving 19.8 g of Compound AB in enough water to create a 115.1 ml solution. The solution's density is: 1.14 g/mL.
The formula for the molality of a solution is m = moles of solute/mass of solvent in kilograms.
To begin, we must first convert the solution's density to mass by using the density formula: density = mass/volume
Mass = density x volume
Mass = 1.14 g/mL x 115.1 mL
Mass = 131.214 g
Next, we must convert grams to kilograms for the mass of the solvent in the molality formula by dividing the mass by 1000.
Mass of solvent in kilograms = 131.214 g / 1000
Mass of solvent in kilograms = 0.131214 kg
Finally, we must calculate the moles of solute, which is Compound AB. To do so, we must use the compound's molar mass, which is calculated by adding up the atomic weights of each element present in the compound. We'll use the following calculations to find the molar mass of Compound AB.
Molar mass of Compound AB = 1 mol A + 1 mol B= 35.5 g/mol A + 79.9 g/mol B
Molar mass of Compound AB = 115.4 g/mol
Now that we have the molar mass of Compound AB, we may calculate the number of moles of solute by dividing the mass by the molar mass.
Number of moles of solute = 19.8 g / 115.4 g/mol
Number of moles of solute = 0.1716 mol
Now that we have the moles of solute and the mass of solvent in kilograms, we can plug in our values to the molality formula to obtain the solution's molality.
m = moles of solute/mass of solvent in kilograms
= 0.1716 mol / 0.131214 kgm = 1.306 mol/kg
The molality of the AB solution is 1.306 mol/kg.
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What happens to the reported percent water if the salt thermally decomposes yielding a volatile product
If the salt thermally decomposes, yielding a volatile product, then the reported percent water in the original sample may be affected.
This is because the water content in the sample may be overestimated due to the presence of the volatile product, which may also be driven off during the heating process. As a result, the reported percent water may be higher than the actual value.
In order to accurately determine the water content of the original sample, the volatile product must be accounted for in the analysis. This can be done by measuring the mass loss of the sample during the heating process, taking into account the mass of the volatile product that is released. Alternatively, the volatile product can be captured and weighed separately, allowing for the accurate determination of the water content in the original sample.
It is important to note that the effect of the volatile product on the reported percent water will depend on the amount and volatility of the product, as well as the analytical method used for determining the water content. Careful consideration and validation of the analytical method is therefore important when analyzing samples that may yield volatile products during thermal decomposition.
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The volume of the compartment that holds this reaction inside your car's steerin
column is approximately 0.050L before the airbag inflates.
a. Calculate the pressure in this compartment if it could hold the same number of moles of N 2 from above at a temperature of 45.0°C
b. Convert this pressure in kPa to atm. (Can you use this number in atm's to
describe how many times greater than standard atmospheric pressure this
would be?)
If the compartment could retain the same quantity of moles of N2 gas as determined in the previous question at a temperature of 45.0°C, the pressure inside would be 28.6 atm.
How do you determine the compartment's pressure?P = nRT/V
replacing the specified values:
P = 28.6 atm when P = (0.0122 mol)(0.0821 L atm/mol K)(45.0°C + 273) / 0.050 L.
How is kPa changed into atm?We can use the following conversion factor to change this pressure from kPa to atm:
101.325 kPa per atm
Therefore, the pressure in kPa is 2899 kPa: 28.6 atm x 101.325 kPa/atm
To put it in terms of how much higher than normal atmospheric pressure this would be:
28.6 times (2899 kPa / 101.325 kPa)
As a result, there would be an increase in pressure of 28.6 times inside the container.
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the relationship between pressure and volume of a gas is choose... so that as volume decreases, pressure choose...
The relationship between pressure and volume of a gas is Inverse, so that as volume decreases, pressure increases. The relationship between pressure and volume of a gas is called the Boyle's Law.
According to this law, at a constant temperature and amount of gas, the pressure and volume of a gas are inversely proportional to each other i.e. PV = K where P is the pressure, V is the volume, and K is a constant. So, as the volume of a gas decreases, the pressure increases, and as the volume of a gas increases, the pressure decreases.
This can be explained by the fact that as the volume decreases, the molecules of gas are compressed into a smaller space, which causes them to collide more frequently with each other and the walls of the container. This increase in collisions results in an increase in pressure. Conversely, as the volume increases, the molecules of gas have more space to move around and collide less frequently, resulting in a decrease in pressure.
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the gas law for an ideal gas at absolute temperature (in kelvins), pressure (in atmospheres), and volume is , where is the number of moles of the gas and is the gas constant. suppose that, at a certain instant, atm and is increasing at a rate of .10 atm/min and l and is decreasing at a rate of .15 l/min. find the rate of change of with respect to time at that instant if moles. round your answer to the nearest thousandth.
Answer:
dT/dt=2.680K/M
Explanation:
In this case we have:
P=8atm
R=0.0821
dP/dt=0.10 atm/min
V=10L
dV/dt=0.15L
n=10 moles
given that PV=nRT
d(PV)/dt=d(nRT)/dt
P(dV/dt)+V(dP/dt)=nRdT/dT
8*0.15+10*0.10=10*0.0821* dT/dt
dT/dt=2.6796589525
dT/dt=2.680K/m
(If it was not right please let me know)
The atomic number of an atom is always equal to the total number of
neutrons in the nucleus
neutrons plus protons in the atom
protons in the nucleus
protons plus electrons in the atom
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The atomic number of an atom is always equal to the total number of protons in the nucleus. Therefore, the correct answer is "protons in the nucleus".
The atomic number of an atom represents the number of protons present in the nucleus of the atom. Protons are positively charged particles, and they determine the element to which the atom belongs. The number of protons in the nucleus is equal to the number of electrons in the neutral atom, which determines the chemical properties of the element. Neutrons are uncharged particles present in the nucleus, and their number may vary for different isotopes of the same element. Therefore, the atomic number cannot be equal to the total number of neutrons in the nucleus or the total number of protons plus electrons in the atom.
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Moles of Zn(NO 3 ) 2 in 173. 50 g of this substances
There are 0.916 moles of Zn(NO₃)₂ in 173.50 g of the substance.
To calculate the moles of Zn(NO₃)₂ in 173.50 g of the substance, we need to know the molar mass of Zn(NO₃)₂.
The molar mass of Zn(NO3)2 can be calculated by adding the atomic masses of zinc (Zn), nitrogen (N), and oxygen (O), and then multiplying by the number of atoms of each element in the compound:
Molar mass of Zn(NO₃)₂ = (65.38 g/mol for Zn) + (2 x 14.01 g/mol for N) + (6 x 16.00 g/mol for O)
Molar mass of Zn(NO₃)₂ = 189.39 g/mol
Now we can use the following formula to calculate the moles of Zn(NO₃)₂:
moles = mass / molar mass
moles = 173.50 g / 189.39 g/mol
moles = 0.916 moles
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--The given question is incomplete, the complete question is
"Moles of Zn(NO₃)₂ in 173. 50 g of this substances. Express your answer in moles to four significant figures."--
one thousand grams of water (about 1 l) contains 55.5 moles of water molecules. (one mole is 6.022 x 1023 particles). one electron is removed from every hundredth water molecule and placed in a container 100. m from the water. a. how many water molecules are there in the water container?
The number of water molecules in the container when one electron is removed from every hundredth water molecule and placed in a container is 100. m from the water is 3.30 x 1025.
Given,1 liter of water = 1000 g of water1 mole of water molecules = 6.022 x 1023 particles.
Therefore, 55.5 moles of water molecules = 55.5 x 6.022 x 1023 particles = 3.33 x 1025 particles one electron is removed from every hundredth water molecule.
So, 1 electron is removed from 1% of water molecules. Therefore, the number of water molecules from which the electron is removed = (1/100) x 3.33 x 1025 = 3.33 x 1023 molecules.
Now, this electron is placed 100 m away from the water container. The distance between the water container and the electron is not relevant for finding the number of water molecules in the container, hence can be ignored.
So, the number of water molecules in the container = Total number of water molecules - number of water molecules from which electron is removed= 3.33 x 1025 - 3.33 x 1023 = 3.30 x 1025.
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which of the following best describes a metastable state? group of answer choices this state changes the position of the equilibrium but not the rate. the metastable state is created by the prosthetic group of the enzyme. this state is composed of the difference in activation energy of a catalyzed versus an uncatalyzed reaction. the metastable state is a state of the substrate in which the reaction can proceed but typically requires a catalyst. the metastable state is formed by transient complexes with the substrate.
A metastable state is a state of the substrate in which the reaction can proceed but typically requires a catalyst. This statement best describes a metastable state. The correct answer is C.
What is a metastable state?A metastable state is a state of the substrate in which the reaction can proceed but typically requires a catalyst. It is a state of matter that is not in equilibrium but appears to be in equilibrium for a long time, after which it collapses to its most stable state.
Metastability is the quality of a non-equilibrium system to remain in a quasi-stable state for a longer period than predicted by the system's relaxation time.
Here are some characteristics of metastable states: The equilibrium changes in the state but not in the rate. The activation energy difference between a catalyzed and an uncatalyzed reaction makes up the metastable state. The state is made up of transient complexes with the substrate.
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Scientists hypothesize that the O157:H7 strain of E. coli is so different from the K-12 strain because of __________.
Scientists have hypothesized that the O157:H7 strain of E. coli is so different from the K-12 strain due to a process called horizontal gene transfer. This is the transfer of genetic material between different bacteria, and it can occur through mechanisms such as conjugation, transformation, and transduction.
In the case of E. coli O157:H7, it is believed that the strain acquired new genes through horizontal gene transfer from other bacteria. These new genes may have provided the strain with new capabilities, such as the ability to produce toxins and survive in new environments. This could explain why the O157:H7 strain is more pathogenic and causes more severe illness than the K-12 strain.
Horizontal gene transfer is an important mechanism for the evolution and adaptation of bacteria, and it plays a significant role in the emergence of new bacterial strains with unique characteristics.
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The combustion of propane gas produces carbon dioxide and water vapor.
C3H8(g)+5O2(g)→3CO2(g)+4H2O(g)
What volume of oxygen is required to completely combust 0.650 L of propane? What volume of carbon dioxide is produced in the reaction?
n(C3H8) = V(P) x (P/T) x (1/mol.mass C3H8)
where V(P) is the volume of propane gas at pressure P and temperature T, and mol.mass C3H8 is the molar mass of propane (44.1 g/mol)
n(C3H8) = 0.650 L x (1 atm/1.01325 bar) x (1/273.15+25) K x (1/44.1 g/mol)
n(C3H8) = 0.0153 mol
Therefore, the amount of oxygen required for complete combustion of propane is:
n(O2) = 5 x n(C3H8)
n(O2) = 5 x 0.0153 mol
n(O2) = 0.0765 mol
To find the volume of oxygen required, we can use the ideal gas law:
PV = nRT
where P is the pressure of the gas, V is the volume of the gas, n is the number of moles of the gas, R is the gas constant, and T is the temperature of the gas in Kelvin.
Rearranging the equation and plugging in the values, we get:
V(O2) = n(O2)RT/P
where R is the gas constant (0.08206 L atm mol^-1 K^-1) and T is the temperature in Kelvin (298 K)
V(O2) = 0.0765 mol x 0.08206 L atm mol^-1 K^-1 x 298 K / 1 atm
V(O2) = 1.86 L
Therefore, 1.86 L of oxygen is required to completely combust 0.650 L of propane.
To find the volume of carbon dioxide produced, we use the same approach:
n(CO2) = 3 x n(C3H8)
n(CO2) = 3 x 0.0153 mol
n(CO2) = 0.0459 mol
V(CO2) = n(CO2)RT/P
where R is the gas constant (0.08206 L atm mol^-1 K^-1) and T is the temperature in Kelvin (298 K)
V(CO2) = 0.0459 mol x 0.08206 L atm mol^-1 K^-1 x 298 K / 1 atm
V(CO2) = 1.08 L
Therefore, 1.08 L of carbon dioxide is produced in the reaction.
Please mark this answer as brainliest if possible.
Can someone help me figure this out?
The limiting reactant of the reaction as shown is AgNO3 because it has less theoretical yield.
How do you know the limiting reactant?The limiting reactant in a chemical reaction is the reactant that gets consumed completely and limits the amount of product that can be formed.
Compare the calculated number of moles of product that can be formed from each reactant. The reactant that produces the smaller number of moles of product is the limiting reactant.
It is important to identify the limiting reactant because it determines the maximum amount of product that can be formed in the reaction.
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a buffer is prepared by adding solid sodium acetate to 0.10 m ch3cooh. which of the following concentrations of sodium acetate will produce the buffer that is most effective towards additions of a base? 0.3 m ch3coona 2.5 m ch3coona 2.0 m ch3coona 1.5 m ch3coona 3.0 m ch3coona
The buffers with 0.3 M CH3COONa will be the most effective towards additions of a base, as it has the smallest change in pH upon the addition of a base.
StepsThe buffer containing the most CH3COO-, the conjugate base, will be the most efficient. This is due to the fact that the buffer capacity is dependent on the conjugate acid and base concentration, with larger concentrations resulting in a more effective buffer.
We must calculate the pH of the buffer solution at each of the specified concentrations and select the one with the smallest change in pH upon the addition of a base in order to identify the concentration of sodium acetate that is the most effective.
Using the Henderson-Hasselbalch equation:
pH = pKa + log([CH3COO-]/[CH3COOH])
where the pKa of CH3COOH is 4.76.
At 0.3 M CH3COONa: pH = 4.76 + log(0.3/0.10) = 4.96
At 2.5 M CH3COONa: pH = 4.76 + log(2.5/0.10) = 5.36
At 2.0 M CH3COONa: pH = 4.76 + log(2.0/0.10) = 5.26
At 1.5 M CH3COONa: pH = 4.76 + log(1.5/0.10) = 5.16
At 3.0 M CH3COONa: pH = 4.76 + log(3.0/0.10) = 5.46
Therefore, the buffer with 0.3 M CH3COONa will be the most effective towards additions of a base, as it has the smallest change in pH upon the addition of a base.
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The volume of the compartment that holds this reaction inside your car's steering
column is approximately 0.050L before the airbag inflates.
a. Calculate the pressure in this compartment if it could hold the same number of moles of N 2 from above at a temperature of 45.0°C
b. Convert this pressure in kPa to atm. (Can you use this number in atm's to describe how many times greater than standard atmospheric pressure this
would be?)
a. The pressure in the compartment would be 6.7 atm at 45.0°C. b. Converting 6.7 atm to kPa gives 680.6 kPa. This is about 6.7 times greater than standard atmospheric pressure.
What is the volume of the compartment in m³?Converting 0.050 L to m³ gives 5.0 x 10^-5 m³.
If the temperature in the compartment was lowered to 20.0°C while the number of moles of N2 remained the same, what would be the new pressure in the compartment?Using the ideal gas law, we can calculate the new pressure to be 4.4 atm.
We can use the Ideal Gas Law to solve this problem, which states:
PV = nRT
where P is the pressure, V is the volume, n is the number of moles, R is the gas constant (0.0821 L·atm/mol·K), and T is the temperature in Kelvin.
a) We are given the volume V = 0.050 L, the temperature T = 45.0°C = 318.15 K, and the assumption that the compartment holds the same number of moles of N2 as in the previous question, which is n = 0.036 mol. We can rearrange the Ideal Gas Law to solve for P:
P = nRT/V
P = (0.036 mol)(0.0821 L·atm/mol·K)(318.15 K)/(0.050 L)
P = 146.7 atm
b) To convert this pressure to kPa, we can use the conversion factor 1 atm = 101.3 kPa:
P = 146.7 atm x 101.3 kPa/atm
P = 14862 kPa
To describe how many times greater than standard atmospheric pressure this would be, we can divide this pressure by standard atmospheric pressure, which is approximately 101.3 kPa:
14862 kPa / 101.3 kPa = 146.5
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all bond types in a carboxylic acid have significant polarity, except ______.
All bond types in a carboxylic acid have critical extremity, with the exception of the connection between the two carbon iotas in the carboxyl group.
A carboxyl group is a user group that comprises a carbonyl group (C=O) and a hydroxyl group (- Goodness) joined to a similar carbon molecule, which is likewise clung to a third iota or group.
The carbonyl group in the carboxyl group has a critical extremity because of the electronegativity distinction between the oxygen and carbon iotas. The oxygen iota is more electronegative than the carbon particle, and that implies that it draws in the common electrons in the bond all the more firmly, making a halfway regrettable charge on the oxygen and a fractional positive charge on the carbon.
The hydroxyl group in the carboxyl group likewise has a critical extremity, with the oxygen iota being more electronegative than the hydrogen particle, bringing about a fractional negative charge on the oxygen and a halfway certain charge on the hydrogen.
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the cage size of the zeolites is in centimeters scaleTrue False
The cage size of the zeolites is in angstroms scale. The size of the cage of zeolites ranges from 2-10 angstroms and that is too small to be measured in centimeters. So, the statement given is false.
Zeolites are defined as the minerals which contain mainly aluminum and silicon compounds. These are used as drying agents in detergents and in water and air purifiers. The zeolites have a cage size which is much more smaller than a nanometer which makes them selective towards certain molecules based on their size and shape.
The properties of zeolites are attributed to their pore structure of the cage. Zeolite is composed of channels and cages which provides a surface area that is accessible to molecules that can be adsorbed.
Zeolite have high surface area of which makes them an effective catalyst for a wide range of reactions which includes the conversion of petroleum feedstocks to gasoline and diesel fuel.
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6. 112 mol
007 10. 0 points
A weather balloon with a volume of 2. 29932 L is released from Earth’s surface at sea level. What volume will the balloon occupy at an
The volume of the balloon at the new pressure and temperature will be approximately 0.721 L.
This is a problem involving the ideal gas law, which relates the pressure, volume, number of moles, and temperature of a gas:
PV = nRT
where P is pressure, V is volume, n is number of moles, R is ideal gas constant, and T is temperature in Kelvin.
We can use this equation to solve for the final volume of the balloon at a different pressure and temperature, assuming that the number of moles of gas remains constant.
Firstly, we need to convert temperature to Kelvin:
T₁ = 273.15 + 15 = 288.15 K
T₂ = 273.15 - 50 = 223.15 K
Next, we can rearrange the ideal gas law equation to solve for the final volume:
V₂ = (nRT₂)/P₂
where P₂ is the new pressure.
To find the new pressure, we can use the ideal gas law equation with the given conditions:
P₁V₁ = nRT₁
Solving for P₁:
P₁ = (nRT₁) / V₁
P₁ = (6.112 mol)(0.0821 L·atm/mol·K)(288.15 K) / (2.29932 L)
P₁ = 16.2 atm
Now we can use the new pressure and temperature to calculate the final volume:
V₂ = (nRT₂)/P₂
V₂ = (6.112 mol)(0.0821 L·atm/mol·K)(223.15 K) / (16.2 atm)
V₂ = 0.721 L
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which group highlights metalloids in the illustration of the periodic table? responses a a b b c c d
The group highlights the metalloids in the illustration of the periodic table is C.
The C are the metalloids or the semi-metals this means they have the some properties that is similar to the metals and the non-metals. The Metalloids can be defined as the chemical elements whose the physical and the chemical properties fall in the between the metal and the non-metal categories.
The Boron, the germanium, silicon, the antimony, arsenic, the tellurium and the pollanium are the seven that is most widely recognized metalloids. Therefore, the metalloids are highlighted by the group C that is present in the periodic table.
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When taking a measurement with a pH meter, keep the instrument in the _______1_________ until it is needed. Rinse the pH meter with _______2_______ and gently pat dry. Place the meter in the sample solution, and record the measurement when the pH _________3_________.
Help me with this question pls
As sediments settle on land or water : b) sediments settle and create layers and cement together over time.
What is sedimentation?As sediments settle on land or water, they undergo a process that is called sedimentation. Sedimentation is the process of settling and accumulation of the sediments, which can take place in different environments such as lakes, rivers, oceans, or on land.
Over time, these sediments become compacted and cemented together, forming sedimentary rocks. The layers of sedimentary rocks can also contain fossils, providing important clues to the history of life on Earth and sediments do not float to the top to create hills or become a gas over time.
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a non-steroidal anti-inflammatory drug is metabolized with a first-order rate constant of 3.25 day-1. what is the half-life for the metabolism reaction?
It would take roughly 5.11 hours for half of a certain amount of the non-steroidal anti-inflammatory drug to be metabolized, and another 5.11 hours for half of the remaining amount, and so on, until the drug is fully metabolised.
The half-life of a reaction is the amount of time it takes for half of the initial substance to be metabolized. In this case, the non-steroidal anti-inflammatory drug is metabolized with a first-order rate constant of 3.25 day-1, which means that the rate of metabolism is proportional to the concentration of the drug.
To calculate the half-life of this reaction, we can use the equation:
t1/2 = ln(2) / k
Where t1/2 is the half-life, ln(2) is the natural logarithm of 2 (approximately 0.693), and k is the first-order rate constant.
Plugging in the values we have, we get:
t1/2 = 0.693 / 3.25 day-1
Solving this equation gives us a half-life of approximately 0.213 days, or about 5.11 hours.
Therefore, if we start with a certain amount of the non-steroidal anti-inflammatory drug, it would take approximately 5.11 hours for half of it to be metabolized, and another 5.11 hours for half of the remaining amount to be metabolized, and so on until the drug is completely metabolized.
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Heart cells require a certain balance of sodium and potassium ions to function. The blood, which is approximately 83% water, carries these two types of ions to the heart. The property of water that allows it to carry ions to the heart is its--
molecular mass
specific heat
polarity
density
The polarity of water is a critical property that enables it to dissolve and transport ions, such as sodium and potassium, to the heart cells, which are essential for proper cardiac function.
The property of water that allows it to carry ions to the heart is its polarity. Water is a polar molecule, which means it has a partial negative charge near the oxygen atom and a partial positive charge near the hydrogen atoms. This polarity allows water molecules to interact with and dissolve ionic compounds, such as sodium and potassium ions, which are crucial for the proper functioning of heart cells. In the bloodstream, sodium and potassium ions are transported by the water molecules.
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in the warm-up activity, you observed how the reaction inside the chamber affected the temperature of the surrounding water. based on what happens to the surrounding water, do you think heat energy (enthalpy) is absorbed in the reaction or released? explain.
Based on the observation in the warm-up activity, where the temperature of the surrounding water increased during the reaction inside the chamber, it can be inferred that the reaction released heat energy (enthalpy).
This is because the temperature of the surrounding water increased, indicating that energy was transferred from the system (reaction inside the chamber) to the surroundings (water).
According to the first law of thermodynamics, the total energy of a closed system is conserved, meaning that energy cannot be created or destroyed but can only be transferred between the system and the surroundings. In exothermic reactions, energy is released by the system to the surroundings, resulting in an increase in the temperature of the surroundings.
Therefore, the observation of an increase in temperature of the surrounding water suggests that the reaction inside the chamber is exothermic and releases heat energy.
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2. a 500.0 g metal block absorbs of heat to raise its temperature by 50.0 k. what is the substance? show your work.
Aluminum is used to make the metal cylinder.
To determine the substance of the metal block, we need to calculate its specific heat capacity, which is the amount of heat required to raise the temperature of 1 gram of a substance by 1 degree Celsius.
The equation for calculating the heat absorbed by a substance is:
q = m * c * ΔT
where q is the heat absorbed, m is the mass of the substance, c is the specific heat capacity, and ΔT is the change in temperature.
In this case, we have:
m = 500.0 g (given)
ΔT = 50.0 K (given)
q = unknown
To find c, we can rearrange the equation to:
c = q / (m * ΔT)
We know that the metal block absorbed some amount of heat, which we can calculate by multiplying the mass of the block by the specific heat capacity of water (which is 4.184 J/g*K) and the temperature change:
q = (500.0 g) * (4.184 J/g*K) * (50.0 K) = 104,600 J
Now we can calculate the specific heat capacity of the metal block:
c = q / (m * ΔT) = (104,600 J) / (500.0 g * 50.0 K) = 4.184 J/g*K
This specific heat capacity is very close to that of aluminum (which is 0.903 J/g*K) and therefore, we can conclude that the metal block is made of aluminum.
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Evolution and natural selection are necessary for
Responses
A successful reproduction of a species with other members of that species.successful reproduction of a species with other members of that species.
B the short-term survival of individual organisms.the short-term survival of individual organisms.
C the long-term survival of an entire species of organisms.the long-term survival of an entire species of organisms.
D the preservation of natural habitats.
Answer: "C the long-term survival of an entire species of organisms."
Explanation:
A - Yes, reproduction of the species is part of Evolution, it is not the best answer for the question taking into account the other possible answers.
B - Evolution is not necessarily a short-term thing, Evolution occurs over a long period of time.
C - *Refer to the explanation above.*
D - This answer has more to do with Ecosystems, rather than Evolution/Natural Selection.
QuestionAssertionAtomic size decreases across period but increases down a group of the periodic table.ReasonMoving from left to right across a period, electrons are added one at a time to the outer energy shell. Electrons within a shell cannot shield each other from the attraction to protons, while moving down a group in the periodic table, the number of electrons and filled electron shells increases.ABoth Assertion and Reason are correct and Reason is the correct explanation for AssertionBBoth Assertion and Reason are correct but Reason is not the correct explanation for AssertionCAssertion is correct but Reason is incorrectDBoth Assertion and Reason are incorrectMedium
The correct option is A) Both Assertion and Reason are correct and Reason is the correct explanation for Assertion.
The assertion is that atomic size decreases across a period and increases down a group of the periodic table.
The assertion is correct because, moving from left to right across a period, the atomic number of elements increases, resulting in an increase in the number of protons in the nucleus, which attract the electrons closer to the nucleus, reducing the atomic size. Additionally, as electrons are added to the same valence shell, there is no significant increase in the shielding effect of inner shells, which further decreases the atomic size.
The reason is also correct because, as we move down a group, the number of electron shells increases, and the atomic size increases because of the increasing distance between the outermost electrons and the nucleus. The electrons in inner shells also provide more shielding, reducing the effective attraction of the nucleus on the outermost electrons, further increasing the atomic size.
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A gas occupies 11.2 litera at 1.00 atm and 200K. What is the pressure if the volume becomes 22.4 L at 100k
The pressure is 0.25 atm when the gas occupies 22.4 L at 100 K.
To solve this problemFirst we can use the combined gas law equation:
(P1 x V1) / (T1) = (P2 x V2) / (T2)
Where
P1 = 1.00 atm (initial pressure)V1 = 11.2 L (initial volume)T1 = 200 K (initial temperature)V2 = 22.4 L (final volume)T2 = 100 K (final temperature)We can rearrange the equation to solve for P2:
P2 = (P1 x V1 x T2) / (V2 x T1)
Plugging in the values, we get:
P2 = (1.00 atm x 11.2 L x 100 K) / (22.4 L x 200 K)
P2 = 0.25 atm
Therefore, the pressure is 0.25 atm when the gas occupies 22.4 L at 100 K.
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Please show all of your work and remember to count significant figures.
1. If we dissolve 2.500 kg of vanadium (V) sulfate and 1.645 kg of ammonium sulfide in water and then mix them, 570.0 g of solid precipitate is produced. What is the % yield of this reaction?
a. Write out the chemical equation for this reaction and balance it:
b. Calculate the number moles of each of the reagents:
c. Identify the limiting reagent and calculate the theoretical yield.
d. Calculate the % yield:
2. After Cetyl alcohol (C16H340) is combusted with oxygen, we measure that it produced 620 g of water, how many grams of Cetyl alcohol were burned in the reaction?
a. Write out the chemical equation for this reaction and balance it:
b. Calculate the number of moles of water produced.
c. Use the coefficients from the balanced equation to calculate the moles of cetyl alcohol that would need to burn to produce 620 g of water.
d. Convert the moles of cetyl alcohol into grams:
Answer:
hypotheticcally 8
Explanation:
The amount of energy needed to heat 6.1 g of a substance from 50.0°C to 80.0°C is 36.6 J. What is the specific heat capacity of this sample?
As a result, the material has a specific heat capacity of 0.20 J/g°C.
How do you define simple specific heat capacity?Its specific heat capacity is the amount of heat energy required to raise the temperature of a unit mass of any substance or matter by one degree Celsius.
We can use the following formula to find the substance's specific heat capacity: Q = m * c * ΔT
where Q is the extra energy in joules, m is the substance's mass in grammes, c is its specific heat capacity in joules per gramme of temperature, and T is the temperature change in degrees Celsius.
When we substitute the specified values, we obtain:
36.6 J = (6.1 g) * c * (80.0°C - 50.0°C)
Simplifying and solving for c, we get:
c = 36.6 J / (6.1 g * 30.0°C)
c = 0.20 J/g°C
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Is mixing salt and pepper physical change or chemical change ?
Answer:Cutting, tearing, shattering, grinding, and mixing are further types of physical changes because they change the form but not the composition of a material. For example, mixing salt and pepper creates a new substance without changing the chemical makeup of either component.
Explanation: