Which is the function of space observatory technology?

classify objects in space
collect soil and rock samples
carry astronauts and equipment
capture panoramic surface images

Answer:

Measure the absorbance for the same solution at different wavelengths and find the maximum absorbance.

Explanation:

To obtain the wavelength of maximum absorption, many different wavelengths must be passed through a solution and the corresponding absorption is measured for each wavelength.

The wavelength at which the maximum absorption occurs is known as the wavelength of maximum absorption. This is the wavelength st which the experiment should be performed.

Answer:80%

Explanation:Total C in terrestrial ecosystems is approximately 3170 gigatons (GT; 1 GT = 1 petagram = 1 billion metric tons). Of this amount, nearly 80% (2500 GT) is found in soil (Lal 2008).

Answer:

Explanation:

The mass of a substance when given the density and volume can be found by using the formula

From the question

volume of copper = 2.62 cm³

density = 8.96 g/cm³

We have

mass = 8.96 × 2.62 = 23.4752

We have the final answer as

Hope this helps you

Answer:

See explanation

Explanation:

In putting up prospective structures for the compounds, we must consider the tetra valency of carbon. Again you must read the description carefully before drawing each structure.

In each of the proposed structures, the number of atoms present must reflect the condensed structural formula given in the question.

Proposed structures for each chemical specie in the question are shown in the images attached.

The molecules in ice and liquid water have the same kinetic energy. Liquid water has a greater entropy than ice and the liquid water has a greater potential energy than ice. The correct option is D.

Kinetic energy is the energy that an object or particulate has as a result of its motion.

When work, which converts energy, is performed on an object by applying a net force, the object accelerates and gains kinetic energy.

Potential energy is the energy that an object has as a result of its location in relation to other objects.

Potential energy is frequently associated with restoring forces such as a spring or gravity.

Ice and liquid water molecules have the very same kinetic energy. Liquid water has more entropy than ice, and it also has more potential energy than ice.

The correct answer is D.

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Your question seems incomplete, the complete question may be:

Correct statements about samples of ice and liquid water at 0∘ C include which of the following ?

(P) Molecules in ice and liquid water have the same kinetic energy.

(Q) Liquid water has a greater entropy than ice.

(R ) Liquid water has a greater potential energy than ice

Answer:

Explanation:

i guess change in colour

Answer:

C. Determine the density of the object and compare the known density of pure silver.

Explanation:

A pure silver is a chemical substance that comprises of 0.1% of trace elements and 99.9% of silver. It is also known as fine silver in chemistry.

Due to the fact that pure silver has a very high level of purity, it is usually too soft for jewelry making and as such it's mixed with other metals such as copper, nickel, zinc, palladium etc. so as to make it hard.

In Chemistry, the best way to determine if an object is made of pure silver is to determine the density of the object and compare the known density of pure silver. This can be done by properly weighing the object to determine its mass and then determining its volume by checking how much water is displaced when completely immersed. The respective values for mass and volume of the object is then used to calculate its density.

Density can be defined as mass all over the volume of an object. Simply stated, density is mass per unit volume of an object.

Mathematically, density is given by the formula;

[tex]Density = \frac{mass}{volume}[/tex]

After determining the density of the object, it is then compared with the density of pure silver which is ideally 10.5g/cm³.

Answer: 177

Explanation:

The reaction yields 177g of Na.

The balanced equation is

2NaN₃ → 2Na + 3N₂

Either use the mass of NaN₃ or of N₂ to calculate the mass of Na.

By making the following conversions:

mass of NaN₃ → moles of NaN₃ → moles of Na → mass of Na

500 g NaN₃ × [tex]\frac{1 mol NaN_{3} }{65.01 g NaN_{3} }[/tex] = 7.69 mol NaN₃

7.69 mol NaN₃ × [tex]\frac{2 mol Na}{2 mol NaN_{3} }[/tex] = 7.69 mol Na

7.69 mol Na × [tex]\frac{22.99 g Na}{1 mol Na}[/tex] = 176.8 g Na = 177g of Na

By making the following conversions:

mass of N₂ → moles of N₂ → moles of Na → mass of Na

323.20 g Na ×[tex]\frac{2 mol N_{2} }{28.01 g N_{2} }[/tex] = 11.539 mol N₂

11.539 mol N₂ × [tex]\frac{2 mol Na}{3 mol N_{2} }[/tex]  = 7.692 mol Na

7.692 mol Na × [tex]\frac{22.99 g Na}{1 mol Na}[/tex] = 176.85 g Na = 177g of Na

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Answer:

Throughout the liquid state, certain forces are encountered by the aforementioned molecules:  

Explanation:

Answer:

a. c= silver/ 234J(kg/K) > b. c= water/ 4190 J(kg/K) > c. c= glass/ 754J/(kg.K)

Explanation:

Hello.

In this case, since the heat resulting from the temperature change for an specified amount of a substance is defined via:

[tex]Q=mCp\Delta T[/tex]

Since the specific heat is related to amount of energy required to raise the temperature of 1 kg of a substance by 1 °C, we can infer that the higher the specific heat, the higher the required energy as they are in a directly proportional relationship. Moreover, since the specific heat and the change in temperature are in an inversely proportional relationship, we can infer that the higher the specific heat, the lower the temperature change, therefore, we can rank the substances follows:

a. c= silver/ 234J(kg/K) > b. c= water/ 4190 J(kg/K) > c. c= glass/ 754J/(kg.K)

It means that silver will produce the largest temperature change, next water and finally glass since silver has the smallest specific heat next water and finally glass.

Best regards.

Answer:

The chemical formula is Cr(BrO3)3.

The chemical formula formed between chromium (III) and bromate ion is Cr(BrO3)2.

A chemical formula is an formula for the atoms in compound which are arranged in a fixed proportion.

The chemical formula of salt is NaCl. The chemical formula of sodium bicarbonate is NaHCO3. The chemical formula of chromium bromate is Cr(BrO3)2.

The molecular mass of chromium bromate is 435. 7027. The valency of chromium in chromate ion is 2. The atomic number of chromium is 24. The atomic number of bromine is 35. Bromine contain seven valence electrons.

Therefore, The chemical formula formed between chromium (III) and bromate ion is Cr(BrO3)2.

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Oil and water.

Lemon juice and tea.

Honey and tea.

Milk and chocolate.

Coffee and cream.

Cream and sugar.

Flour and butter.

Cereal and milk.

Answer:

oil ,water lemon juice and tea coffee an cream honey and tea milk and chocolate these are mixtures

Answer:

The distance the truck traveled is 190

Explanation:

I added 30, 45, 50, 65 together to get the total distance

Answer:

See attached picture.

Explanation:

Hello.

In this case, since the synthesis of amides via anhydride requires its reaction with the N-radical primary amine, as it is required to yield N-methylpropanamide, the reactants must be propanoic anhydride and methylamine in order to yield the aforementioned amide as well as propanoic acid as a side product.

This reaction is shown on the attached picture.

Best regards.

From the information given:

In 2010, the mercury content of:

It is recommended that the maximum amount of mercury consumed by the body should not be more than 0.1 micrograms per day.

To determine how often may the person eat a can containing 6 ounces of chunk white tuna, we need to go through the following processes:

First, let convert the mass of the tuna to grams

Since 1 oz = 28.3495 g

Mass of the tuna = 6 oz × 28.3495 g

= 170.097 g

The maximum amount of mercury (Hg) permitted to be consumed by a 63 kg body weight in a day = 63 × 0.1

= 6.3 micrograms/day

However, the mass of the mercury (Hg) = concentration (Hg)  × mass of tuna

= 0.6 × 10⁻⁶ × 170.097 g

= 1.0206 × 10⁻⁴ g

= 102.06 μg (micrograms)

Thus, the time required between the consumption of one 6 oz can of chunk white tuna is:

[tex]=\mathbf{ \dfrac{102.06}{6.3}}[/tex]

= 16.2 days

≅ 16 days

The time required between the consumption of one 6 oz can of chunk white tuna is approximately every 16 days.

To determine how often may the person eat a can containing 6 ounces of chunk light tuna, we need to go through the following processes:

However;

the mass of the mercury (Hg) = concentration (Hg)  × mass of tuna

= 0.14 × 10⁻⁶ × 170.097 g

= 2.4814  × 10⁻⁵ g

= 23.814 μg

Thus, the time required between the consumption of one 6 oz can of chunk white tune is:

[tex]=\mathbf{ \dfrac{23.814}{6.3}}[/tex]

= 3.78days

≅ 4 days

The time required between the consumption of one 6 oz can of chunk light tuna is approximately every 4 days.

Therefore, we can conclude that the time required between the consumption of one 6 oz can of chunk white tuna is approximately every 16 days and the time required between the consumption of one 6 oz can of chunk light tuna is approximately every 4 days.

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Answer:

c

Explanation:

Physical Weathering is process that occurs when repeated freezing and thawing breaks apart rocks

Answer:

A Intrusive

Explanation:

I go to K12 and they say that's the answer

Answer:

where's the diagram?

Explanation:

the best answer is student A

Answer:

(1) separate the substances

(2) chemically combine the substances

(3) determine the freezing point of the mixture

(4) predict the electrical conductivity of the mixture

Explanation:

Answer: I think the best answer from the choices listed above is option 1. Two substances in a mixture differ in density and particle size. These properties can be used to separate the substances. These properties can be manipulated in order to have a better separation between the two substances.

Answer:

Carbon dioxide and oxygen

Explanation:

Answer:

Liquid water turning into vapour.

Explanation:

Just the matter changes from one stage to another...

Answer:

D. liquid water turning into vapor

Explanation:

Correct on Edge 2022!!!

Good luck everyone, you got this! Have a great day!

Answer:

less than 45 cm, as the ball transforms some of its potential eneregy to termal energy and sound energy

Answer: 3.4 atoms

Explanation: hope this helps you!!

Answer:

fractional distillation

Explanation:

Answer:

Explanation:

The density of a substance can be found by using the formula

[tex]density = \frac{mass}{volume} \\[/tex]

From the question

mass = 36.3 g

volume = 12.5 L

We have

[tex]density = \frac{36.3}{12.5} \\ = 2.904[/tex]

We have the final answer as

Hope this helps you

Answer:

it's called cassification?

Answer:

Explanation:

Given that;

The chemical equation for the reaction is:

[tex]\text {4NH}_3(g) +\text {5O}_2(g) }[/tex] ↔ [tex]\text {4NO}(g) +\text {6H}_2O}(g) }[/tex]

a). [tex]\Delta H^0 = \sum \Delta H^0_{reactant \ bonds \ broken} + \sum \Delta H^0_{product \ bonds \ formed}[/tex]

Using average bond energies;

For Bonds broken, we have:

4 × 3 N - H = 12 mol × 391 kJ/mol = 4692 kJ

5 × O = O = 5 mol × 498   kJ/mol =  2490 kJ    

         [tex]\mathbf{ \sum \Delta H^0_{reactant \ bonds \ broken} }[/tex]   = 7182  kJ

For Bonds formed, we have:

4 × N = O = 4 mol × - 607 kJ/mol = -2428 kJ

6 × 2 O - H = 12 mol × - 467 kJ/mol = - 5604 kJ

         [tex]\mathbf{ \sum \Delta H^0_{product \ bonds \ formed} }[/tex]      = - 8032 kJ

Therefore;

[tex]\mathbf{ \Delta H^o = 7182 kJ + (- 8032 \ kJ)}[/tex]

[tex]\mathbf{ \Delta H^o =-850 \ kJ}[/tex]

b) Using Standard heats of formation;

[tex]\Delta H^0 = \sum m \Delta H^0_f (products) = \sum n \Delta H^0_f (reactants)[/tex]

[tex]\Delta H^0 = [ 4 \ mol \times \Delta H^0_f \ (NO(g)) + 6\ mol \times \Delta H^0_f(H_2O)] - [ 4 \ mol \times \Delta H^0_f \ (NH_3(g)) + 5 \ mol \times \Delta H^0_f \ (O_2)][/tex]

[tex]\Delta H^0 = [ 4 \ mol \times90.29 \ kJ/mol + 6\ mol \times -241.826 \ kJ/mol - [ 4 \ mol \times-45.9 \ kJ/mol + 5 \ mol \times 0][/tex]

[tex]\mathbf{\Delta H^0 = -906.196 \ kJ}[/tex]

c) The value of ΔH^o, calculated using average bond energies, is only considered to be an estimate of the standard enthalpy change for the reaction because there is a premise in the calculation that all the bonds broken in the reactant and all bonds are formed in products. Meanwhile, only little bonds are broken, and only little bonds are formed during the reaction.