To produce a solution that is 35.0 wt% SrCl2 with 36.0 grams of SrCl2, one would need to add 66.9 grams of water. This is because the total weight of the solution is the weight of SrCl2 plus the weight of the water needed.
Explanation:In order to determine how much water must be added to 36.0 g of SrCl2 to produce a solution that is 35.0 wt% SrCl2, we must understand that the 35% by weight represents that 35 g of SrCl2 is in 100 g of the solution. Thus, to find the total weight of the water and the SrCl2, we should set up the equation 36g (weight of SrCl2) / X g (total weight of solution) = 35%, which would give that X = 102.9 g. The total solution weight is the weight of the SrCl2 plus the weight of the water needed, so to find the weight of the water we subtract the weight of SrCl2 (36 g) from the total weight of solution (102.9 g), which gives us 66.9 g as the amount of water to be added to the SrCl2.
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Which of the following could you do to increase the strength of an electromagnet? decrease the number of windings decrease the electric current change the core from wood to iron all of the above
Answer:
to change the core
Explanation:
You mix sugar in water and stir until it's completely dissolved. in this system, the water is the ________, the sugar is the ________, and the end result is a ________. solute; solution; solvent solvent; solution; solute solution; solvent; solute solvent; solute; solution solute; solvent; solution
Answer: water is the solvet, sugar is the solute and the the end result is a solution.
Explanation:
Binary Solution is a homogeneous mixture of two components called as solute and solvent.
Solute is the component which is present in smaller proportion and is solid for solid in liquid solution and solvent is the component which is present in larger proportion and is liquid for solid in liquid solution.
Concentrated solution is one in which there is more amount of solid.
Dilute solution is one in which there is more amount of liquid.
Thus as sugar is lesser in amount , it is the solute. Water is preset in larger amount, thus it is the solvent and the end result is the solution.
An experiment is designed to test what color of light will activate a photoelectric cell the best. The photocell is set in a circuit that "clicks" in response to current. The faster the current, the more clicks per minute. In this experiment, the number of clicks in one minute is recorded for each color of light shining on the photocell. To change the color of light, a different color of cellophane is placed over the same flashlight and the flashlight is then located a specific distance from the photocell.
In the above experiment, which factor is the independent variable?
A)the number of clicks
B)the color of the light
C)the original source of the light
D)the photocell
I'm a really stuck in this. I kind of suck in chemistry, please help me. I would really appreciate it.
I have to write one to two paragraphs about : What is the relationship between the atomic numbers and ionic radii of the elements in group 1?
And
What is the relationship between atomic numbers and first ionization energies?
These Are The Elements in group 1 of the periodic table:
lithium
sodium
potassium
rubidium
cesium
When will the net enthalpy of formation of a solution (δhsolution) be endothermic?
A compound containing sodium, chlorine, and oxygen is 25.42% sodium by mass. A 3.25 g sample gives 4.33×1022 atoms of oxygen. What is the empirical formula?
The empirical formula of the compound containing sodium, chlorine, and oxygen is 25.42% sodium by mass. A 3.25 g sample gives 4.33×10²² atoms of oxygen is NaClO₂.
Step 1: Calculate the mass of sodium in the sample
Mass of sample: 3.25 gPercentage of sodium: 25.42%Mass of sodium: 3.25 g × 0.2542 = 0.827 gStep 2: Calculate the number of moles of sodium
Molar mass of sodium: 22.98 g/molNumber of moles of sodium: 0.827 g ÷ 22.98 g/mol = 0.0360 molStep 3: Calculate the number of moles of oxygen
Number of oxygen atoms: 4.33 × 10²² atomsAvogadro's number: 6.022 × 10²³ atoms/molNumber of moles of oxygen: 4.33 × 10²² atoms ÷ 6.022 × 10²³ atoms/mol = 0.0720 molStep 4: Calculate the mole ratio of sodium to oxygen
Mole ratio: Na:O = 0.0360 mol : 0.0720 mol = 1:2Step 5: Calculate the mass of chlorine in the sample
Mass of sample: 3.25 gMass of sodium: 0.827 gMass of oxygen: 0.0720 mol × 16.00 g/mol = 1.15 gMass of chlorine: 3.25 g - 0.827 g - 1.15 g = 1.28 gStep 6: Calculate the mole ratio of chlorine to sodium
Number of moles of chlorine: 1.28 g ÷ 35.45 g/mol = 0.0361 molMole ratio: Cl:Na = 0.0361 mol : 0.0360 mol = 1:1Step 7: Write the empirical formula
The empirical formula is NaClO₂, which matches the given information.Therefore, the empirical formula of the compound is NaClO₂.
Identify the solute with the lowest van't hoff factor.
Which of the following can be measured in amps with an ammeter
What are the properties of the aluminum in the can
The proton pump _____. see concept 36.2 (page 786) the proton pump _____. see concept 36.2 (page 786) uses the energy stored in atp to produce a hydrogen ion gradient across membranes. uses the energy of a proton gradient to generate atp is a passive process operates by osmosis releases kinetic energy
In the correctly balanced equation, what are the coefficients for H2, Cl2, and HCl (respectively)? ___H2 + ___Cl2 → ___HCl 1,1,1 2,2,1 1,1,2 2,1,2
The correctly balanced equation for the reaction between hydrogen (H2) and chlorine (Cl2) to form hydrogen chloride (HCl) is H2 + Cl2 → 2 HCl, with the coefficients being 1 for H2, 1 for Cl2, and 2 for HCl.
Explanation:The question concerns balancing a chemical equation, which falls under the field of Chemistry, specifically with relation to stoichiometry, the part of chemistry that concerns the quantities of substances that come into play during chemical reactions.
In the chemical equation H2 + Cl2 → HCl, to balance it, you need to ensure that the number of atoms of each element is equal on both the reactant and product sides. After balancing the equation, it takes the form H2 + Cl2 → 2 HCl. This means that the coefficients for hydrogen (H2), chlorine (Cl2), and hydrogen chloride (HCl) are 1, 1, and 2 respectively.
Final answer:
To balance the equation between hydrogen gas (H₂) and chlorine gas (Cl₂) forming hydrogen chloride (HCl), we add a coefficient of 2 in front of HCl. This yields a balanced chemical equation where the coefficients for H₂, Cl₂, and HCl are 1, 1, and 2, respectively.
Explanation:
The equation given is a combination of hydrogen gas (H₂) and chlorine gas (Cl₂) to form hydrogen chloride (HCl). To balance the equation, we should have equal numbers of each type of atom on both sides of the equation. We start with hydrogen and chlorine atoms, and then balance the number of hydrogen chloride molecules produced.
Initially, we have the equation:
H₂ + Cl₂ → HCl
This is not balanced because we have 2 hydrogen atoms on the left and only 1 on the right; similarly, we have 2 chlorine atoms on the left but only 1 on the right. By placing a coefficient of 2 in front of HCl, which indicates we are producing 2 molecules of it, the equation becomes:
H₂ + Cl₂ → 2 HCl
Now, with two atoms of both hydrogen and chlorine on each side of the equation, the chemical equation is balanced. Therefore, the correct coefficients are 1 for H₂, 1 for Cl₂, and 2 for HCl, respectively.
For an atom’s electrons, how many energy sublevels are present in the principal energy level n = 4? 4 9 10 16 32
Answer: The number of sub-levels the for the energy level n = 4 are 4.
Explanation:
The number of sub-levels in an energy level is determined from the azimuthal quantum number.
Principle Quantum Number: This quantum number describes the size of the orbital. It is represented by n where n = 1,2,3,4....
Azimuthal Quantum Number: This quantum number describes the shape of the orbital and also determines the sub-levels in an energy level. It is represented by the symbol 'l'. The value of 'l' ranges from 0 to (n-1). For l = 0,1,2,3... the orbitals are s, p, d, f...
For n = 4, the value of l = 0(s), 1(p), 2(d), 3(f) and these are the number of sub-levels.
Hence, the number of sublevels the for the energy level n = 4 are 4.
What was the original element formed moments after the Big Bang? What then created higher order elements?
Hydrogen was the first element formed right after the Big Bang, followed by helium and a small amount of lithium during a period known as Big Bang nucleosynthesis. The heavier elements were created in the cores of stars or during supernovae much later in the universe's history. The CMB is evidence of the universe's early state when neutral hydrogen atoms first formed.
Explanation:The original element formed moments after the Big Bang was hydrogen. After that, the processes that occurred in the early universe allowed for the fusion of hydrogen nuclei into helium and a small amount of lithium. This period of nucleosynthesis occurred within a few hundred seconds of the Big Bang. Heavier elements were created much later in the cores of stars and during supernova explosions.
During the first few minutes after the Big Bang, conditions were ripe for nuclear fusion due to the extremely high temperatures. Protons and neutrons combined to form deuterium (a stable isotope of hydrogen), which then fused into helium. Only about 5% of the current universe's ordinary matter was created during this brief period of Big Bang nucleosynthesis.
As the universe cooled and expanded, fusion became less viable and only the fusion within stars continued the process of creating heavier elements. The Cosmic Microwave Background (CMB) radiation that we observe today is a remnant from the time when the universe cooled enough for neutral hydrogen atoms to form, making the universe transparent to radiation again.
Braddy connected the lose wire to the battery and created an electromagnet. He picked up 45 thumb tacks with his electromagnet, though his goal was to pick up 50 thumb tacks. What could Braddy do to increase the strength of his electromagnet and pick up more thumbtacks?
A) Use fewer coils of wire.
B) Use a screw instead of a nail.
C) Use two batteries instead of one.
D) Replace the nail with a piece of steel.
Braddy could use two batteries instead of one. One way he could increase the strength of his magnet is to increase the current and add a second battery. He could also add more coils of wire, not use fewer.
In the reaction below, hydrogen peroxide decomposes to water. MM H2O2 = 34.02 g/mol MM H2O = 18.02 g/mol MM O2 = 32 g/mol 2H2O2 → 2H2O + O2 If 14.3 moles of H2O2 is decomposed, how many grams of oxygen gas are produced? Show ALL your work to get full credit.
Why are graphs used to understand an objects motion?
10,300 milliliters is the same as: cm3 and L
Answer : The 10300 milliliter in [tex]cm^3[/tex] and L are, [tex]10300 cm^3[/tex] and 10.3 L respectively.
Explanation :
The conversion used from milliliters to centimeter cube is:
[tex]1ml=1cm^3[/tex]
As we are given the volume 10300 ml. Now we have to determine the volume in centimeter cube.
As, [tex]1ml=1cm^3[/tex]
So, [tex]10300ml=\frac{10300ml}{1ml}\times 1cm^3=10300cm^3[/tex]
The volume in centimeter cube is, [tex]10300cm^3[/tex]
The conversion used from milliliters to liter is:
1 ml = 0.001 L
As we are given the volume 10300 ml. Now we have to determine the volume in liter.
As, 1 ml volume = 0.001 L
So, 10300 ml volume = [tex]\frac{10300ml}{1ml}\times 0.001L=10.3L[/tex]
The volume in liter is, 10.3 L
Answer:
The 10300 milliliter in and L are, and 10.3 L respectively.
Explanation:
Which is not a hydrogenous sediment?
manganese nodules
calcium carbonates
evaporites
calcareous ooze
my answer is the letter D. calcareous ooze
Because calcareous ooze is a Biogenous sediment not a hydrogenous sediment
The equilibrium constant k for the synthesis of ammonia is 6.8x105 at 298 k. what will k be for the reaction at 375 k?
The value of K for the reaction at 375 k is : 326
Given data :
Initial temperature ( T1 ) = 298 k
rate constant ( k1 ) = 6.8 * 10⁵
Final temperature ( T2 ) = 375 k
Determine the value of K2applying the relationship below
Log ( K₂ / K₁ ) = ΔH / 2.303 * R * ( T₂-T₁ / T₂T₁ ) ----- ( 1 )
equation ( 1 ) becomes
Log K₂ - log (6.8 * 10⁵ ) = - 7100940 / 213967725
Log K₂ - ( 5 + log 6.8 ) = - 3.318
therefore Log K₂ = 2.5145
K₂ = 10^2.5145
= 326
Hence we can conclude that The value of K for the reaction at 375 k is : 326
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Attached below is the complete question
The equilibrium constant K for the synthesis of ammonia changes with temperature, and to determine K at 375 K, the Van't Hoff equation should be used, which requires the standard enthalpy change of the reaction, ΔH°. Without ΔH°, the exact value of K at 375 K cannot be determined.
Explanation:The equilibrium constant K for the synthesis of ammonia will vary with temperature due to the inherent properties of the reaction and the effect of temperature on reaction dynamics. In thermodynamics, the Van't Hoff equation relates the change in the equilibrium constant with temperature, which is described as:
ln(K2/K1) = -ΔH°/R * (1/T2 - 1/T1)
where:
K1 and K2 are the equilibrium constants at temperatures T1 and T2, respectively,ΔH° is the standard enthalpy change of the reaction,R is the universal gas constant, andT1 and T2 are the initial and final temperatures in Kelvin.To determine K at 375 K, one would need the value of ΔH° for the reaction. In absence of this information, the question cannot be fully answered. However, generally a rise in temperature for an exothermic reaction, like the synthesis of ammonia, results in a lower equilibrium constant due to Le Chatelier's Principle.
Consider the following balanced final equation. NO2 + CO mc014-1.jpg NO + CO2 Which is the correct step(s) for this reaction mechanism?
Answer b is the answer for the equation:
Ga2O3(s) + 3SOCl2(l) --> 2GaCl3(s) +3SO2
In a certain reaction, 71.8 g of Ga2O3 is reacted with 110.8 g SOCl2.The GaCl3 produced is collected and its mass founded to be 97.66 g.
What is the theoretical yield of GaCl3?
What is the approximate total number of atoms in a 1.0 mole of lithium?
Answer:
6.0 × 10^23
Explanation:
Big brain mode
How many carbon atoms are in 15.6 kg of acetone? acetone is ch3coch3. the density of acetone is 1.30 g/ml?
What are charged atoms of elements that have an unequal number of protons and electrons?
An element has three naturally occurring isotopes. Use the information below to calculate the weighted average atomic mass of the element, showing both the setup and the final answer for the calculation.
Isotope
Atomic Mass
Percent Abundance
X 1.01 u 99.984%
Y 2.01 u 0.014%
Z 3.02 u 0.002%
Which of the following is NOT a characteristic of a strong acid and a strong base?
Has a [H+] higher than water
Completely dissociates in water
Has a pH at the extreme end of the scale
Is corrosive to most metals
The periodic law describes trends seeing across which of the following?
Periods within the periodic table
Radio activity within the periodic table
Elements with the same number of protons
The top half of periodic table
what makes a nucleus stable
What mass due to waters of crystallization is present in a 3.38 g sample of FeSO4 •7H2O?
The mass due to water of crystallization present in a 3.38 g sample of FeSO4 •7H2O is 1.53 g
What is water of crystallization?The water of crystallization is the moles of water present in one molecule of a salt which forms part of the crystal lattice.
For the given salt:
molar mass of salt FeSO4 •7H2O = 278 g/mol
mass of water on 1 mole FeSO4 •7H2O = 7 × 18 = 126 g
Mass due to waters of crystallization present in a 3.38 g sample of FeSO4 •7H2O = 3.38 × 126/278
Mass of water of crystallization = 1.53 g
Therefore, the mass due to water of crystallization present in a 3.38 g sample of FeSO4 •7H2O is 1.53 g.
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Write the equilibrium-constant, kp, expression for the reaction a(g)+4b(l)<--------->3c(g)+d(g)
Answer:
[tex]K_{p} =\frac{(P_{c} )^{3}(P_{d} ) }{(P_{a}) }[/tex]
Explanation:
The equilibrium constant is expressed as the relationship between the molar concentration of reagents and products. The expression of a generic reaction is:
aA + bB <--------> cC + dD
[tex]K_{p}=\frac{[C]^{c} [D]^{d} }{[A]^{a} [B]^{b}}[/tex]
The numerator is the product of the concentrations of the products and the denominator is the product of the reagents. Each term in the equation is raised to a power whose value is that of the stoichiometric coefficient in the balanced equation.
When it comes to gas mixtures, it is sometimes more appropriate to describe the composition in terms of partial pressures. So in this case we will have:
[tex]K_{p} =\frac{(P_{c} )^{3}(P_{d} ) }{(P_{a})(P_{b}) ^{4} }[/tex]
As the concentration and partial pressure of pure liquids and solids can be considered as 1, the final equation will be:
[tex]K_{p} =\frac{(P_{c}) ^{3}(P_{d} ) }{(P_{a}) } [/tex]