How does the MIE of a solid change as particle size decreases?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Enhance your understanding of fire hazards and safety protocols with the ELA 963 Fire Hazards Test. Learn through insightful questions, comprehensive explanations, and effective study tools. Prepare thoroughly for your test today!

Multiple Choice

How does the MIE of a solid change as particle size decreases?

MIE is the energy required to ignite a material. When particle size gets smaller, the particle has less mass and thus a smaller heat requirement to reach the ignition temperature. The higher surface area to volume ratio of tiny particles also means heat transfer into the particle is more efficient, helping it reach ignition more quickly. Because both reduced mass and more rapid heating make ignition easier, the minimum ignition energy decreases as particle size decreases. The other options don’t fit because a constant MIE ignores the effect of mass, an increasing MIE would imply ignition becomes harder with smaller particles, and an unpredictable variation ignores the clear trend from thermal mass and heat transfer considerations.

How does the MIE of a solid change as particle size decreases?

Enhance your understanding of fire hazards and safety protocols with the ELA 963 Fire Hazards Test. Learn through insightful questions, comprehensive explanations, and effective study tools. Prepare thoroughly for your test today!

How does the MIE of a solid change as particle size decreases?

Get the latest from Examzify