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Zinc Pyrotechnics—Chemical Demonstration Kit

By: The Flinn Staff

Zinc Pyrotechnics Thermodynamics Chemistry Demonstration Kit
zinc dust, ammonium nitrate, ammonium chloride
exothermic reactions, catalysts, thermodynamics
Zinc Pyrotechnics Thermodynamics Chemistry Demonstration Kit
zinc dust, ammonium nitrate, ammonium chloride
exothermic reactions, catalysts, thermodynamics
Item #: AP9117 

Price: $27.68

In Stock.

The Zinc Pyrotechnics Thermodynamics Chemistry Demonstration Kit provides students with a spectacular “fireworks” display. Water is added to a mixture of dry chemicals to highlight the concepts of catalysts and exothermic reactions.

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Product Details

A spectacular “fireworks” display is initiated by adding two drops of water to a mixture of dry chemicals. Place a beaker with very small amounts of zinc dust, ammonium nitrate and a catalyst in a fume hood. Add two drops of water to the mixture and watch as sparks, smoke and excitement fill the air. Must be performed on a heat-resistant surface in a fume hood or outdoors.

Concepts: Exothermic reactions, catalysts.
Time Required: 15 minutes

Specifications

Materials Included in Kit: 
Ammonium chloride, 7 g
Ammonium nitrate, reagent, 100 g
Zinc dust, 100 g


Correlation to Next Generation Science Standards (NGSS)

Science & Engineering Practices

Developing and using models
Obtaining, evaluation, and communicating information
Planning and carrying out investigations

Disciplinary Core Ideas

MS-PS1.A: Structure and Properties of Matter
MS-PS3.A: Definitions of Energy
HS-PS1.A: Structure and Properties of Matter
HS-PS3.A: Definitions of Energy

Crosscutting Concepts

Energy and matter
Patterns
Stability and change
Cause and effect
Systems and system models

Performance Expectations

MS-PS1-2: Analyze and interpret data on the properties of substances before and after the substances interact to determine if a chemical reaction has occurred.
MS-PS1-4: Develop a model that predicts and describes changes in particle motion, temperature, and state of a pure substance when thermal energy is added or removed.
HS-PS2-2: Use mathematical representations to support the claim that the total momentum of a system of objects is conserved when there is no net force on the system.
HS-PS1-4: Develop a model to illustrate that the release or absorption of energy from a chemical reaction system depends upon the changes in total bond energy.
HS-PS3-2: Develop and use models to illustrate that energy at the macroscopic scale can be accounted for as a combination of energy associated with the motion of particles (objects) and energy associated with the relative position of particles (objects).
HS-PS3-4: Plan and conduct an investigation to provide evidence that the transfer of thermal energy when two components of different temperature are combined within a closed system results in a more uniform energy distribution among the components in the system (second law of thermodynamics).