Plywood Proteins, hair,nails Made up of atoms that are held together by chemical bonds commonly used as a material because they are light, tough, long-lasting, recyclable, easy to form into shapes, cheap who studies the chemical & mechanical properties and structure of different man-made and natural materials measure of the resistance of a fluid to deformation under stress Materials that are made of two or more basic materials Silly putty Plastic milk jug process where one or more substances are altered into a new and different substances Made of protons, electrons and neutrons Mass is neither created nor destroyed Pros: Durable & strong Electrical & thermal insulator Non-reactive Cons: Brittle We live in this “Age” materials are strong/flexible/cheap Has a definite volume and shape,particles slide past each other and take the shape of the container Has definite shape and volume and particles are very close together Pros: Electrical & thermal conductivity Malleable Cons: Corrosive Fatigue No definite shape or volume,particles move very quickly Gases with electric charge. Examples: Lightening, nebulas (where stars are born) To permanently deform a material Temporary shape change Ways to prevent corroding of this material: Keep dry Paint Use Stainless steel Digesting a cheeseburger Fiberglass When a substance changes but NO new substance is formed viscosity can change when under force to either more liquid or more solid Plywood Proteins, hair,nails Made up of atoms that are held together by chemical bonds commonly used as a material because they are light, tough, long-lasting, recyclable, easy to form into shapes, cheap who studies the chemical & mechanical properties and structure of different man-made and natural materials measure of the resistance of a fluid to deformation under stress Materials that are made of two or more basic materials Silly putty Plastic milk jug process where one or more substances are altered into a new and different substances Made of protons, electrons and neutrons Mass is neither created nor destroyed Pros: Durable & strong Electrical & thermal insulator Non-reactive Cons: Brittle We live in this “Age” materials are strong/flexible/cheap Has a definite volume and shape,particles slide past each other and take the shape of the container Has definite shape and volume and particles are very close together Pros: Electrical & thermal conductivity Malleable Cons: Corrosive Fatigue No definite shape or volume,particles move very quickly Gases with electric charge. Examples: Lightening, nebulas (where stars are born) To permanently deform a material Temporary shape change Ways to prevent corroding of this material: Keep dry Paint Use Stainless steel Digesting a cheeseburger Fiberglass When a substance changes but NO new substance is formed viscosity can change when under force to either more liquid or more solid
(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.
Plywood
Proteins, hair,nails
Made up of atoms that are held together by chemical bonds
commonly used as a material because they are light, tough, long-lasting, recyclable, easy to form into shapes, cheap
who studies the chemical & mechanical properties and structure of different man-made and natural materials
measure of the resistance of a fluid to deformation under stress
Materials that are
made of two or more basic materials
Silly putty
Plastic milk jug
process where one or more substances are altered into a new and different substances
Made of protons, electrons and neutrons
Mass is neither created nor destroyed
Pros:
Durable & strong
Electrical & thermal insulator
Non-reactive
Cons:
Brittle
We live in this “Age” materials are strong/flexible/cheap
Has a definite volume and shape,particles slide past each other and take the shape of the container
Has definite shape and volume and particles are very close together
Pros:
Electrical & thermal conductivity
Malleable
Cons:
Corrosive
Fatigue
No definite shape
or volume,particles
move very quickly
Gases with electric charge. Examples: Lightening, nebulas (where stars are born)
To permanently deform a material
Temporary shape change
Ways to prevent corroding of this material:
Keep dry
Paint
Use Stainless steel
Digesting a cheeseburger
Fiberglass
When a substance
changes but NO new substance is formed
viscosity can change when under force to either more liquid or more solid