Level 1: 1. Phosphorus and hydrogen combine to form phosphine. Pas) + 6 Hzie) → 4 PH3le). (This is an example. Don't worry about state symbols.) 2. Carbon and monatomic sulfur combine to form carbon disulfide. 3. Ammonia decomposes to form its elements. 4. Phosphorus and fluorine combine to form phosphorus trifluoride. 5. Nitrogen dioxide decomposes to form nitrogen monoxide and oxygen gas. Level 2: 1. Ethane and chlorine react to form chloroethane and hydrogen chloride gas. 2. Carbon and water react to form methane and carbon dioxide. 3. Methane and monatomic sulfur react to form carbon disulfide and hydrogen sulfide gas. 4. Ethene and oxygen react to form carbon dioxide and water vapor. 5. Methane and water vapor react to form hydrogen and carbon monoxide. Level 3: 1. Ethanol and oxygen react to form carbon dioxide and water vapor. 2. Nitrogen dioxide and water vapor react to form ammonia and oxygen.
Level 1: 1. Phosphorus and hydrogen combine to form phosphine. Pas) + 6 Hzie) → 4 PH3le). (This is an example. Don't worry about state symbols.) 2. Carbon and monatomic sulfur combine to form carbon disulfide. 3. Ammonia decomposes to form its elements. 4. Phosphorus and fluorine combine to form phosphorus trifluoride. 5. Nitrogen dioxide decomposes to form nitrogen monoxide and oxygen gas. Level 2: 1. Ethane and chlorine react to form chloroethane and hydrogen chloride gas. 2. Carbon and water react to form methane and carbon dioxide. 3. Methane and monatomic sulfur react to form carbon disulfide and hydrogen sulfide gas. 4. Ethene and oxygen react to form carbon dioxide and water vapor. 5. Methane and water vapor react to form hydrogen and carbon monoxide. Level 3: 1. Ethanol and oxygen react to form carbon dioxide and water vapor. 2. Nitrogen dioxide and water vapor react to form ammonia and oxygen.
Level 1: 1. Phosphorus and hydrogen combine to form phosphine. Pas) + 6 Hzie) → 4 PH3le). (This is an example. Don't worry about state symbols.) 2. Carbon and monatomic sulfur combine to form carbon disulfide. 3. Ammonia decomposes to form its elements. 4. Phosphorus and fluorine combine to form phosphorus trifluoride. 5. Nitrogen dioxide decomposes to form nitrogen monoxide and oxygen gas. Level 2: 1. Ethane and chlorine react to form chloroethane and hydrogen chloride gas. 2. Carbon and water react to form methane and carbon dioxide. 3. Methane and monatomic sulfur react to form carbon disulfide and hydrogen sulfide gas. 4. Ethene and oxygen react to form carbon dioxide and water vapor. 5. Methane and water vapor react to form hydrogen and carbon monoxide. Level 3: 1. Ethanol and oxygen react to form carbon dioxide and water vapor. 2. Nitrogen dioxide and water vapor react to form ammonia and oxygen.
Plz do the 4 and 5 only ... for each one write the chemical reaction in symbols... highlight the coefficients...
Transcribed Image Text:7:57
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Balancing Equations P...
Level 1:
1. Phosphorus and hydrogen combine to form phosphine.
Pa(s) + 6 Hzle) → 4 PH3()).
(EThis is an example. Don't worry about state symbols.)
2. Carbon and monatomic sulfur combine to form carbon disulfide.
3. Ammonia decomposes to form its elements.
4. Phosphorus and fluorine combine to form phosphorus trifluoride.
5. Nitrogen dioxide decomposes to form nitrogen monoxide and oxygen gas.
Level 2:
1.
Ethane and chlorine react to form chloroethane and hydrogen chloride gas.
2. Carbon and water react to form methane and carbon dioxide.
3. Methane and monatomic sulfur react to form carbon disulfide and hydrogen sulfide gas.
4. Ethene and oxygen react to form carbon dioxide and water vapor.
5. Methane and water vapor react to form hydrogen and carbon monoxide.
Level 3:
1. Ethanol and oxygen react to form carbon dioxide and water vapor.
2. Nitrogen dioxide and water vapor react to form ammonia and oxygen.
Definition Definition Transformation of a chemical species into another chemical species. A chemical reaction consists of breaking existing bonds and forming new ones by changing the position of electrons. These reactions are best explained using a chemical equation.
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