Answer:
Second order
Δ[ClO⁻]/Δt = - 4.183 x 10⁻⁴ M/min
Explanation:
Given the data:
Experiment # [ClO–] (M) Initial Rate of Formation of ClO3– (M/min)
1 10.452 1.048 x 10⁻⁴
2 20.903 4.183 x 10⁻⁴
we need to determine the order of the reaction with respect to ClO⁻.
We know the rate law for this reaction will have the form:
Rate = k [ClO⁻]^n
where n is the order of the reaction. Thus, what we need to do is to study the dependence of the initial rate on n for the experiment.
If the reaction were zeroth order the rate would not change, so we can eliminate n= 0
If the reaction were first order, doubling the concentration of [ClO–] , as it was done exactly in experiment # 2, the initial rate should have doubled, which is not the case.
If the reaction were second order n: 2, doubling the concentration of [ClO–] , should quadruple the initial rate of formation of ClO3–, which is what it is observed experimentally. Therefore the reaction is second order respect to ClO–.
The initial rate of consumption of ClO⁻ is the same as the rate of formation of ClO₃⁻ since:
Δ = - Δ[ClO⁻]/Δt = + Δ[ClO₃⁻]/Δt = + 1/2 [Cl⁻] /Δt
where t is the time.
from the coefficients of the balanced chemical equation.
- Δ[ClO⁻]/Δt = + Δ[ClO₃⁻]/Δt = + 1/2 [Cl⁻ ] = rate
Δ[ClO⁻]/Δt = - 4.183 x 10⁻⁴ M/min
(2) calcium (4) magnesium
Lithium is an element that has chemical properties most similar to sodium.
Out of the given options, lithium is the element that has chemical properties most similar to sodium.
Sodium and lithium are both in Group 1 of the periodic table, also known as the alkali metals. Alkali metals have similar properties because they all have one valence electron, which makes them highly reactive.
For example, like sodium, lithium reacts vigorously with water to produce hydrogen gas and a hydroxide:
2Li(s) + 2H2O(l) → 2LiOH(aq) + H2(g)
#SPJ3
The statement that is given above “When a system performs work on the surroundings, the work is reported with a negative sign” is true. When the surrounding performs work by the system, it is positive.
(2) Stable isotopes are used as reactants.
(3) There is no chance of biological exposure.
(4) A large amount of energy is produced.
Answer:
True
Explanation:
Resource Conservation and Recovery Act (RCRA). 1976 of United States Environmental Protection Agency(EPA) empowers EPA to control the production, transportation, storage, treatment and disposal of hazardous waste. The RCRA act was amended in 1984 and 1986 to include Waste minimization along with appropriate disposal (not in the landfill site) and tackling of petroleum hazardous waste respectively along with other waste.
Answer:
true is the correct answer.
Explanation:
(2) weak ionic bond
(3) strong intermolecular force
(4) weak intermolecular force
Dehydration is removal of water.
In alcohols dehydration is α-β elimination or 1,2 elimination, it means the hydroxyl group will be removed from α-carbon while the hydrogen will be removed from near by carbon.
In case of neopentyl alcohol there is no β hydrogen present on the β carbon [as shown in figure].
The only possible way for it to undergo dehydration is by rearrangement.
The process or mechanism can be understood as:
so the chief product is 2-methylbut-2-ene