The implementation of Hierarchy of Control allows the mitigation and minimization of risk in such a way that even reactive explosives may be handled safely. Explosive compounds for example liquid nitroglycerin (C3H3N3O9) must be handled with extreme care due to the severe harm it could cause if detonated. Calculate the volume expansion factor to be expected if 1 mole of nitroglycerin was detonated to produce gaseous products at a temperature of 3000 °C (a typical explosion temperature). Given that molecular mass and density of nitroglycerin are 227 g/mol and 1.6 g/ml respectively. The gas constant R equals to 0.08206 L. atm mol¹ K-¹. Discuss how the concept of "RAMP" may be applied in relation to the use of nitroglycerin in an experiment in a laboratory.

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The implementation of Hierarchy of Control allows the mitigation and minimization of risk in
such a way that even reactive explosives may be handled safely. Explosive compounds for
example liquid nitroglycerin (C3H5N3O9) must be handled with extreme care due to the severe
harm it could cause if detonated. Calculate the volume expansion factor to be expected if 1
mole of nitroglycerin was detonated to produce gaseous products at a temperature of 3000 °C
(a typical explosion temperature). Given that molecular mass and density of nitroglycerin are
227 g/mol and 1.6 g/ml respectively. The gas constant R equals to 0.08206 L. atm mol¹¹ K*¹.
Discuss how the concept of "RAMP" may be applied in relation to the use of nitroglycerin in
an experiment in a laboratory.
Transcribed Image Text:The implementation of Hierarchy of Control allows the mitigation and minimization of risk in such a way that even reactive explosives may be handled safely. Explosive compounds for example liquid nitroglycerin (C3H5N3O9) must be handled with extreme care due to the severe harm it could cause if detonated. Calculate the volume expansion factor to be expected if 1 mole of nitroglycerin was detonated to produce gaseous products at a temperature of 3000 °C (a typical explosion temperature). Given that molecular mass and density of nitroglycerin are 227 g/mol and 1.6 g/ml respectively. The gas constant R equals to 0.08206 L. atm mol¹¹ K*¹. Discuss how the concept of "RAMP" may be applied in relation to the use of nitroglycerin in an experiment in a laboratory.
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To calculate the volume expansion factor if  1 mole of nitroglycerine is detonated to produce gaseous product at a temperature of 3000°C(3273 K), given that the molar mass of nitroglycerine is 227 g/mol and the density is 1.6 g/mL

 

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