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3 years ago

Erosion is an important geologic _ and a _ force.

Chemistry

2 answers:

NNADVOKAT [17]3 years ago

6 0

Answer:

Explanation:

Erosion is an important geologic _____ and a _____ force.

A. event; destructive

B. event; constructive

C. process; destructive

D. process; constructive

A geologic process causes changes to the physical makeup of a particular place and occurs _____.

A. slowly

B. quickly

C. internally only

D. externally only

Earthquakes and volcanoes are caused by _____ building up underground over time.

A. rocks

B. motions

C. stresses

D. deposits

Which of these is a constructive geologic process?

A. erosion

B. deposition

C. weathering

D. transportation

About fifty thousand years ago _____ formed Meteor Crater.

A. erosion

B. glaciation

C. an earthquake

D. an asteroid impact

Deposition is a _____.

A. destructive event

B. constructive event

C. destructive process

D. constructive process

Many geologic processes and events are due to _____.

A. erosion

B. deposition

C. weathering

D. plate tectonics

What can cause changes to the physical makeup of a particular place on Earth?

A. a geologic event only

B. a geologic process only

C. a geologic event or process

Which of these is NOT a geologic process?

A. erosion

B. glaciation

C. soil formation

D. volcanic eruption

An example of an internal geologic process would be _____.

A. deposition

B. an earthquake

C. plate movement

D. a volcanic eruption

scoray [572]3 years ago

4 0

Answer:

Erosion is an important geologic _____ and a _____ force.

A. event; destructive

B. event; constructive

C. process; destructive

D. process; constructive

A geologic process causes changes to the physical makeup of a particular place and occurs _____.

A. slowly

B. quickly

C. internally only

D. externally only

Earthquakes and volcanoes are caused by _____ building up underground over time.

A. rocks

B. motions

C. stresses

D. deposits

Which of these is a constructive geologic process?

A. erosion

B. deposition

C. weathering

D. transportation

About fifty thousand years ago _____ formed Meteor Crater.

A. erosion

B. glaciation

C. an earthquake

D. an asteroid impact

Deposition is a _____.

A. destructive event

B. constructive event

C. destructive process

D. constructive process

Many geologic processes and events are due to _____.

A. erosion

B. deposition

C. weathering

D. plate tectonics

What can cause changes to the physical makeup of a particular place on Earth?

A. a geologic event only

B. a geologic process only

C. a geologic event or process

Which of these is NOT a geologic process?

A. erosion

B. glaciation

C. soil formation

D. volcanic eruption

An example of an internal geologic process would be _____.

A. deposition

B. an earthquake

C. plate movement

D. a volcanic eruption

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One reaction involved in the conversion of iron ore to the metal is FeO(s) + CO(g) → Fe(s) + CO2(g) Use Hess’s Law to calculate

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Answer:

$\delta H_{rxn} = -66.0 \ kJ/mole$

Explanation:

Given that:

$3FeO_3_{(s)}+CO_{(g)} \to 2Fe_3O_4_{(s)} +CO_{2(g)} \ \ \delta H = -47.0 \ kJ/mole -- equation (1) \\ \\ \\ Fe_2O_3_{(s)} +3CO_{(g)} \to 2FE_{(s)} + 3CO_{2(g)} \ \ \delta H = -25.0 \ kJ/mole -- equation (2) \\ \\ \\ Fe_3O_4_{(s)} + CO_{(g)} \to 3FeO_{(s)} + CO_{2(g)} \ \delta H = 19.0 \ kJ/mole -- equation (3)$

From equation (3) , multiplying (-1) with equation (3) and interchanging reactant with the product side; we have:

$3FeO_{(s)} + CO_{2(g)} \to Fe_3O_4_{(s)} + CO_{(g)} \ \delta H = -19.0 \ kJ/mole -- equation (4)$

Multiplying (2) with equation (4) ; we have:

$6FeO_{(s)} + 2CO_{2(g)} \to 2Fe_3O_4_{(s)} + 2CO_{(g)} \ \delta H = -38.0 \ kJ/mole -- equation (5)$

From equation (1) ; multiplying (-1) with equation (1); we have:

$2Fe_3O_4_{(s)} +CO_{2(g)} \to 3FeO_3_{(s)}+CO_{(g)} \ \ \delta H = 47.0 \ kJ/mole -- equation (6)$

From equation (2); multiplying (3) with equation (2); we have:

$3 Fe_2O_3_{(s)} +9CO_{(g)} \to 6FE_{(s)} + 9CO_{2(g)} \ \ \delta H = -75.0 \ kJ/mole -- equation (7)$

Now; Adding up equation (5), (6) & (7) ; we get:

$6FeO_{(s)} + 2CO_{2(g)} \to 2Fe_3O_4_{(s)} + 2CO_{(g)} \ \delta H = -38.0 \ kJ/mole -- equation (5)$

$2Fe_3O_4_{(s)} +CO_{2(g)} \to 3FeO_3_{(s)}+CO_{(g)} \ \ \delta H = 47.0 \ kJ/mole -- equation (6)$

$3 Fe_2O_3_{(s)} +9CO_{(g)} \to 6FE_{(s)} + 9CO_{2(g)} \ \ \delta H = -75.0 \ kJ/mole -- equation (7)$

$FeO \ \ \ + \ \ \ CO \ \ \to \ \ \ \ Fe_{(s)} + \ \ CO_{2(g)} \ \ \ \delta H = - 66.0 \ kJ/mole$

$\delta H_{rxn} = \delta H_1 + \delta H_2 + \delta H_3$ (According to Hess Law)

$\delta H_{rxn} = (-38.0 + 47.0 + (-75.0)) \ kJ/mole$

$\delta H_{rxn} = -66.0 \ kJ/mole$

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Need help

KengaRu [80]

Answer:

The answers are either 1 or 4

Explanation:

I am pretty dure it is 1

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vazorg [7]

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