7. Can two elements be used as reactants for a synthesis reaction? If yes, give at least one example from Model 1 to support your answer. 8. Can two compounds be used as reactants for a synthesis reaction? If yes, give at least one example from Model 1 to support your answer. 9. What types of substances (elements or compounds) are seen in the products of decomposition reactions? Use examples from Model 1 to support your answer. 10. Choose one example from the set of synthesis reactions in Model 1 a. Write the chemical reaction in reverse. b. Label the reaction written in part a with one of the reaction types in Model 1.
7. Can two elements be used as reactants for a synthesis reaction? If yes, give at least one example from Model 1 to support your answer. 8. Can two compounds be used as reactants for a synthesis reaction? If yes, give at least one example from Model 1 to support your answer. 9. What types of substances (elements or compounds) are seen in the products of decomposition reactions? Use examples from Model 1 to support your answer. 10. Choose one example from the set of synthesis reactions in Model 1 a. Write the chemical reaction in reverse. b. Label the reaction written in part a with one of the reaction types in Model 1.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Question
I need answering these questions and using model 1
(Not honor class)
(Not grading)
![1
2 3 . 4 I
7. Can two elements be used as reactants for a synthesis reaction? If yes, give at least
one example from Model 1 to support your answer.
8. Can two compounds be used as reactants for a synthesis reaction? If yes, give at least
one example from Model 1 to support your answer.
9. What types of substances (elements or compounds) are seen in the products of
decomposition reactions? Use examples from Model 1 to support your answer.
10. Choose one example from the set of synthesis reactions in Model 1
a. Write the chemical reaction in reverse.
b. Label the reaction written in part a with one of the reaction types in Model 1.
000
D00
DII
F4](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F35a97a5b-1f34-4473-898a-8c3f1b67d19a%2F0796bf8a-6f36-45a4-b271-40ab8fd49dfa%2Fcy1x5z_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1
2 3 . 4 I
7. Can two elements be used as reactants for a synthesis reaction? If yes, give at least
one example from Model 1 to support your answer.
8. Can two compounds be used as reactants for a synthesis reaction? If yes, give at least
one example from Model 1 to support your answer.
9. What types of substances (elements or compounds) are seen in the products of
decomposition reactions? Use examples from Model 1 to support your answer.
10. Choose one example from the set of synthesis reactions in Model 1
a. Write the chemical reaction in reverse.
b. Label the reaction written in part a with one of the reaction types in Model 1.
000
D00
DII
F4
![Why?
Recognizing patterns allows us to predict future behavior. Weather experts use patterns to
predict dangerous storms so people can get their families to safety. Political analysts use
patterns to predict election outcomes. Similarly, chemists classify chemical equations according
to their patterns to help predict products of unknown but similar chemical reactions.
Model 1 - Types of Reactions
Set B
Set A
4Fe(s) + 30,(g) → 2Fe,O,(s)
N,(g) + 3H,(g) → 2NH,(g)
280,(g) + 0,(g) → 250,g)
MgO(s)+ H̟O(1) → Mg(OH),(aq)
PO,() + 3H,O() → 2H,PO,(aq)
SOe) + H,O() → H,SO,(aq)
MGCO,(6) → MgO(s) + CO,(g)
8Li,S() → 16Lİ() + S,6)
2H,O() –→ 2H,(g) + O,g)
2KCIO,(6) → 2KCI() + 30,(g)
2Na,O̟(6) → 2Na,O(s) + O,(g)
(NH),CO,(6) – 2NH,@) + H¸O() + CO,(g)
Set C
Set D
2FeCl,(aq) + 3Zn(s) → 2Fe(s) + 3ZnCl, (aq)
2AI(NO,),(aq) + 3Ca(s) → 3Ca(NO,),(aq) + 2Al(s)
Mg(s) + CUSO,(aq)MgSO,(aq) + Cu(s)
2A1(s) + 6HCI(aq) 2AICI,(aq) + 3H,(g)
Ce) + 2NaBr(aq)→ 2NaCl(aq) + Br,0)
ZnBr, (aq) + F,(g) → ZnF,(aq) + Br,()
AGNO,(aq) + NaCI(aq) → AgCI(s) + NaNO,(aq)
2HNO,(aq) + Mg(OH), (aq) →
Mg(NO,),(aq) + 2H̟Ó)
Na CO,(aq) + CaCl(aq)→
CaCO,(s) + 2Naci(aq)
FeS(s) + 2HCI(aq) -H,S(g) + FECL(aq)
HC(aq) + NaOH(aq) H,O() + NACI(aq)
FeBr,(aq) + K,PO,(aq) FEPO,(6) + 3KB:(aq)
MacBook Air
00
O00
DII
DD
F4
F5
F6
F7
F8
&
*
4
6
7
8](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F35a97a5b-1f34-4473-898a-8c3f1b67d19a%2F0796bf8a-6f36-45a4-b271-40ab8fd49dfa%2F3gj9sx_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Why?
Recognizing patterns allows us to predict future behavior. Weather experts use patterns to
predict dangerous storms so people can get their families to safety. Political analysts use
patterns to predict election outcomes. Similarly, chemists classify chemical equations according
to their patterns to help predict products of unknown but similar chemical reactions.
Model 1 - Types of Reactions
Set B
Set A
4Fe(s) + 30,(g) → 2Fe,O,(s)
N,(g) + 3H,(g) → 2NH,(g)
280,(g) + 0,(g) → 250,g)
MgO(s)+ H̟O(1) → Mg(OH),(aq)
PO,() + 3H,O() → 2H,PO,(aq)
SOe) + H,O() → H,SO,(aq)
MGCO,(6) → MgO(s) + CO,(g)
8Li,S() → 16Lİ() + S,6)
2H,O() –→ 2H,(g) + O,g)
2KCIO,(6) → 2KCI() + 30,(g)
2Na,O̟(6) → 2Na,O(s) + O,(g)
(NH),CO,(6) – 2NH,@) + H¸O() + CO,(g)
Set C
Set D
2FeCl,(aq) + 3Zn(s) → 2Fe(s) + 3ZnCl, (aq)
2AI(NO,),(aq) + 3Ca(s) → 3Ca(NO,),(aq) + 2Al(s)
Mg(s) + CUSO,(aq)MgSO,(aq) + Cu(s)
2A1(s) + 6HCI(aq) 2AICI,(aq) + 3H,(g)
Ce) + 2NaBr(aq)→ 2NaCl(aq) + Br,0)
ZnBr, (aq) + F,(g) → ZnF,(aq) + Br,()
AGNO,(aq) + NaCI(aq) → AgCI(s) + NaNO,(aq)
2HNO,(aq) + Mg(OH), (aq) →
Mg(NO,),(aq) + 2H̟Ó)
Na CO,(aq) + CaCl(aq)→
CaCO,(s) + 2Naci(aq)
FeS(s) + 2HCI(aq) -H,S(g) + FECL(aq)
HC(aq) + NaOH(aq) H,O() + NACI(aq)
FeBr,(aq) + K,PO,(aq) FEPO,(6) + 3KB:(aq)
MacBook Air
00
O00
DII
DD
F4
F5
F6
F7
F8
&
*
4
6
7
8
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