The 6 physical properties are:
1.) Density
2.) Conductivity
3.) Malleability
4.) Ductility
5.) State
6.) Solubility
Examples: density, melting point, boiling point, refractive index, thermal conductivity, electrical resistivity.
1. density 2. hardness 3. boiling point 4. melting point 5. electrical conductivity 6. thermal conductivity 7. tensile strength 8. refractive index 9. coefficient of thermal expansion 10. magnetic properties
Some examples of physical change include melting an ice cube, chopping wood, and breaking a piece of glass. Additional examples include tearing a piece of paper, combining water and sand, and boiling water.
You know if it's a chemical chagewhen two or more of the following have happened: 1. a precipitate has formed(bubbles) 2. heat is absorbed or released 3. there is a change in odor 4. there is a change in colour 5. the change is diffiult to reverse 6. starting material is used up 7. a material with new properties is formed A physical change may only be a change in state and the change should be easy to reverse
Extrinsic Property- is a property that depends on the amount or quantity of the material.- also known as the "Extensive Physical Property".Examples of the Extrinsic Property:1.) Length 4.) Width 7.) Area2.) Mass 5.) Height 8.) Thickness3.) Volume 6.) Circumference 9.) WeightIntrinsic Property- is a property that depends on the kind or quality of the material.- also known as the " Intensive Physical Property".Examples of Intrinsic Property:1.) Density 10.) Specific heat2.) Texture 11.) Malleability3.) Odor 12.) Ductility4.) Taste 13.) Solubility5.) Hardness 14.) Magnetic properties6.) Boiling point 15.) Surface tension7.) Melting point 16.) Gas diffusion8.) Electrical conductivity 17.) Color9.) Freezing point 18.) Metallic luster
Examples: density, melting point, boiling point, refractive index, thermal conductivity, electrical resistivity.
Examples: density, thermal conductivity, electrical resistivity, thermal expansion, ductility, malleability, hardness etc.
Intensive properties of Matter are those that don't change with amount of the matter. Examples 1.Density 2.Boiling point 3.Melting Point 4.Freezing point 5.Conductivity 6.Hardness 7.Malleability 8.Ductility
Iron sulfide (FeS2) physical properties:- density: cca. 4,9 g/cm3- Mohs hardness: 6-6,5- paramagnetic- insoluble in water
The general properties of matter are given below1)Matter occupies space 2) Matter has weight 3)Matter has inertia4) Matter offers resistance 5) Matter is divisible 6)compressibility7) Porosity 8) Elasticity 9) Cohesion 10) Adhesion
The 6 physical properties associated with hazard recognition of hazardous materials include flammability, reactivity, corrosivity, toxicity, radioactivity, and explosiveness. Understanding these properties can help in identifying potential risks and ensuring proper handling and storage of hazardous materials.
The General Properties of Matter:1. Mass: very common to all matter. Mass does not change unless divided or removed to a body of matter.2. Weight: it depends in the attraction of the pull of gravity thus, it changes from place to place.3. Impenetrability: there are no two things that can occupy the same space.4. Inertia: a matter that is at rest will remain at rest but can only be moved when external force is applied.5. Porosity: states that matter has pores.6. Form and shape: where we can distinguish what kind of matter is the thing observed.7. Volume: capacity or space occupied.8. Density: amount of mass per volumeThe general properties of matter result from its relationship with mass and space. Because of its mass, all matter has inertia (the mass being the measure of its inertia) and weight, if it is in a gravitational field. Because it occupies space, all matter has volume and impenetrability, since two objects cannot occupy the same space simultaneously.The special properties of matter, on the other hand, depend on internal structure and thus differ from one form of matter, i.e., one substance, to another. Such properties include ductility, elasticity,hardness, malleability, porosity(ability to permit another substance to flow through it), and tenacity (resistance to being pulled apart).Examples: density, boiling point, freezing point, hardness, crystalline structure etc.Physical properties can be observed or measured without changing the composition of matter. Physical properties are used to observe and describe matter. Physical properties include: appearance, texture, color, odor, melting point, boiling point, density, solubility, polarity, and many others.1. Mass2. weight (I believe you mean volume here... weigh is just gravities effect on mass and so really 1. and 2. are redundant...)One of the accepted definitions of matter are that it has mass and volume. Energy on the other hand does not have mass or volume.and there is actually 5 properties of matter. (really? what are they?)Professer, Michelle
cracking crushing chipping splintering shattering scratching
PROPERTIES OF MATTER 1. A Substance may be identified by certain Qualities, or Traits. A QUALITY OR TRAIT THAT IDENTIFIES A SUBSTANCE IS CALLED A PROPERTY. 2. The property of a substance stays the SAME even if the Volume changes. 3. COLOR, MASS, SMALL, DENSITY, AND COMPOSITION ARE ALL EXAMPLES OF PROPERTIES THAT CAN HELP SCIENTIST IDENTIFY SUBSTANCES. 4. A PROPERTY THAT ALWAYS STAYS THE SAME IS CALLED A CHARACTERISTIC PROPERTY BECAUSE IT IS A CHARACTERISTIC OF A PARTICULAR KIND OF MATTER. 5. EVERY SUBSTANCE HAS TWO KINDS OF PROPERTIES - PHYSICAL PROPERTIES AND CHEMICAL PROPERTIES. 6. A PHSICAL PROPERTY is a property of matter that can be OBSERVED or MEASURED WITHOUT CHANGING the composition of the substance. 7. Physical properties are often used to identify substances. 8. SOME PHYSICAL PROPERTIES OF MATTER: A. BIOLING POINT - The temperature at which a substance changes from a liquid to a gas. B. CONDENSATION POINT - The temperature at which a substance changes from a gas to liquid; same temperature as boiling point. C. DENSITY - The mass of a specific volume of substance. D. FREEZING POINT - The temperature at which a substance changes from a liquid to a solid; same temperature as melting point. E. MELTING POINT - The temperature at which a substance changes from a solid to a liquid. F. RESISTANCE - The opposition of a substance has to the flow of electric current. G. SOLUBILITY - The degree to which a substance will dissolve in a given amount of another substance, such as water.
Matter is defined as a physical substance having mass and volume. Because of these two properties, it will also have weight (due to gravity acting on its mass) and density (the ratio of mass to volume). The mass also implies inertia, as energy must be applied to affect the motion of matter. For chemical analysis, the fundamental properties are: INERTIA - resistance to motion due to mass MASS - the amount of matter in an object VOLUME - the amount of space an object takes up WEIGHT - a measure of the pull of gravity on an object DENSITY - mass per unit of volume SPECIFIC GRAVITY - density compared to a standard (water) also SPECIFIC HEAT - energy required to raise the matter's temperature
PROPERTIES OF MATTER 1. A Substance may be identified by certain Qualities, or Traits. A QUALITY OR TRAIT THAT IDENTIFIES A SUBSTANCE IS CALLED A PROPERTY. 2. The property of a substance stays the SAME even if the Volume changes. 3. COLOR, MASS, SMALL, DENSITY, AND COMPOSITION ARE ALL EXAMPLES OF PROPERTIES THAT CAN HELP SCIENTIST IDENTIFY SUBSTANCES. 4. A PROPERTY THAT ALWAYS STAYS THE SAME IS CALLED A CHARACTERISTIC PROPERTY BECAUSE IT IS A CHARACTERISTIC OF A PARTICULAR KIND OF MATTER. 5. EVERY SUBSTANCE HAS TWO KINDS OF PROPERTIES - PHYSICAL PROPERTIES AND CHEMICAL PROPERTIES. 6. A PHSICAL PROPERTY is a property of matter that can be OBSERVED or MEASURED WITHOUT CHANGING the composition of the substance. 7. Physical properties are often used to identify substances. 8. SOME PHYSICAL PROPERTIES OF MATTER: A. BIOLING POINT - The temperature at which a substance changes from a liquid to a gas. B. CONDENSATION POINT - The temperature at which a substance changes from a gas to liquid; same temperature as boiling point. C. DENSITY - The mass of a specific volume of substance. D. FREEZING POINT - The temperature at which a substance changes from a liquid to a solid; same temperature as melting point. E. MELTING POINT - The temperature at which a substance changes from a solid to a liquid. F. RESISTANCE - The opposition of a substance has to the flow of electric current. G. SOLUBILITY - The degree to which a substance will dissolve in a given amount of another substance, such as water.
Iron sulfide (FeS2) physical properties:- density: cca. 4,9 g/cm3- Mohs hardness: 6-6,5- paramagnetic- insoluble in water