The semiconductor gallium arsenide, GaAs, is used in highspeedintegrated circuits, light-emitting diodes, and solarcells. Its density is 5.32 g/cm3. It can be made by reactingtrimethylgallium, (CH3)3Ga, with arsine gas, AsH3. Theother product of the reaction is methane, CH4. (a) If youreacted 450.0 g of trimethylgallium with 300.0 g of arsine,what mass of GaAs could you make? (b) Which reactant, ifany, would be left over, and how many moles of the leftoverreactant would remain? (c) One application of GaAs uses itas a thin film. If you take the mass of GaAs from part (a) andmake a 40-nm thin film from it, what area, in cm2, would itcover? Recall that 1 nm = 1 * 10-9 m.
The semiconductor gallium arsenide, GaAs, is used in highspeedintegrated circuits, light-emitting diodes, and solarcells. Its density is 5.32 g/cm3. It can be made by reactingtrimethylgallium, (CH3)3Ga, with arsine gas, AsH3. Theother product of the reaction is methane, CH4. (a) If youreacted 450.0 g of trimethylgallium with 300.0 g of arsine,what mass of GaAs could you make? (b) Which reactant, ifany, would be left over, and how many moles of the leftoverreactant would remain? (c) One application of GaAs uses itas a thin film. If you take the mass of GaAs from part (a) andmake a 40-nm thin film from it, what area, in cm2, would itcover? Recall that 1 nm = 1 * 10-9 m.
Chemistry for Engineering Students
3rd Edition
ISBN:9781285199023
Author:Lawrence S. Brown, Tom Holme
Publisher:Lawrence S. Brown, Tom Holme
Chapter4: Stoichiometry
Section: Chapter Questions
Problem 4.77PAE: The pictures below show a molecular-scale view of a chemical reaction between H2 and CO to produce...
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The semiconductor gallium arsenide, GaAs, is used in highspeed
integrated circuits, light-emitting diodes, and solar
cells. Its density is 5.32 g/cm3. It can be made by reacting
trimethylgallium, (CH3)3Ga, with arsine gas, AsH3. The
other product of the reaction is methane, CH4. (a) If you
reacted 450.0 g of trimethylgallium with 300.0 g of arsine,
what mass of GaAs could you make? (b) Which reactant, if
any, would be left over, and how many moles of the leftover
reactant would remain? (c) One application of GaAs uses it
as a thin film. If you take the mass of GaAs from part (a) and
make a 40-nm thin film from it, what area, in cm2, would it
cover? Recall that 1 nm = 1 * 10-9 m.
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