Chemistry, asked by brainlyking00, 7 months ago

what is thermite reaction??????​

Answers

Answered by sᴡᴇᴇᴛsᴍɪʟᴇ
5

Answer:

The thermite reaction is an exothermic reaction between the metal and metal oxide. For example the reaction between the aluminium with the metal oxides, where aluminium acts as a reducing agent. ... Use of the thermite reaction: The reaction is used for thermite welding. The reaction is used to connect railway tracks.

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Answered by princerajkashyap8507
1

Answer:

Description:

Addition of a small amount of glycerine to a pile of iron (III) oxide, aluminum powder, and potassium permanganate produces a flame, sparks, and molten iron.

Purpose/Goal:

Illustrates the concept of exothermic reactions, the metallurgy of iron, and energy of activation.

Explanation of Experiment:

The reaction of iron (III) oxide and aluminum can be represented by the equation:

Fe2O3 (s) + 2 Al (s) → Al2O3 (s) + 2 Fe (s)

This reaction is one of a class of reactions known as the “thermite” process, which has been used industrially for welding, the preparation of metals from their oxides, and the production of incendiary devices. The process is initiated by heat, but then becomes self-sustaining.

The thermite reaction is initiated by the heat released from the mixture of potassium permanganate and glycerine. Use of the ignition of magnesium ribbon to initiate the desired reaction is not as reliable as the one given.

Materials Preparation:

50 – 55 g iron (III) oxide powder, Fe2O3

15 g aluminum powder

20 – 25 g potassium permanganate, KMnO4

5 – 6 mL glycerine (glycerol), C3H5(OH)3

Scoopula

2 terra cotta flower pots, ca. 2 ½ in. inside top diameter with 1 cm hole in bottom

Filter paper or paper towel to fit the bottom of one pot

Iron ring with inside diameter of 6 – 7 cm

1 m ring stand

Cement board – heat resistant – ca. 1 m x 1 m

Large metal bucket filled with dry sand

Transparent safety shield

10 mL beaker

Tongs

Heat protective gloves

This demonstration should be performed only in a large well-ventilated room or outdoors. The reaction produces a large quantity of smoke. Sparks may be thrown 2 m vertically and 5 m horizontally. Keep flammable material away from the experimental area. Place a scrap of paper towel or filter paper over the bottom opening of one clay pot and place that pot inside the other clay pot. Mix the iron (III) oxide and aluminum powder intimately. Scoop the mixture into the pot. Form a small cone-shaped indentation in the center of the mixture ca. 2 cm deep and 1 – 2 cm wide. Fill this indentation with 20 – 25 g of potassium permanganate crystals. Form another small cone-shaped indentation in the KmnO4 crystals.

Place the clay pots inside a metal ring clamped to the top of a ring stand. Put the ring stand in the middle of the heat resistant cement board. To catch the molten iron, place a sand bath about 1 m below the reaction vessel. Use the safety shield for protection from sparks.

Presentation:

Place 5 – 6 mL of glycerine in a small beaker. Quickly pour the glycerine onto the depression in the KMnO4 crystals. Step back immediately. Ignition of the mixture is achieved in about 15 seconds. Flame, flying sparks, smoke, and dust are produced. Molten iron runs through the hole in the pot into the sand bath. When the reaction is over, use tongs to pick up the white hot iron. Allow the iron to cool before touching.

Hazards:

This demonstration produces intense heat and molten metal. A fire extinguisher should be readily available at all times. Water should not be used to extinguish the reaction, since addition of water to hot iron produces potentially explosive hydrogen gas. Since fires resulting from thermite reactions can be difficult to control, the chemicals should not be used in larger amounts than suggested. A safety shield should be used for protection from sparks. Care should be taken to avoid exposure to molten iron. Heat protective gloves should be worn, and the hot products should be handled only with tongs. Handle KMnO4 with great care, since explosions can occur if it is brought into contact with organic or other readily oxidizable substances, either in solution or in the dry state. Because of the smoke and dust released, the demonstration should be performed in a well-ventilated room at the end of the lecture.

Disposal:

Allow the solids produced to cool to room temperature. All solids can be scraped off into a waste container. The inner flower pot invariably cracks, and should not be reused.

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