The physical properties that I know are colour (ex: black, white, greenish- yellow, red), texture (ex: fine, coarse, smooth, gritty), odour (ex: odourless, spicy, sharp, burnt), state (ex: solid, liquid, and gas), lustre(ex: shiny, dull), clarity (clear, cloudy, opaque is something that can not see through something), and taste(sweet, sour, salty, bitter).
Sugar is a chemical compound. It is a carbohydrate that consists of carbon, hydrogen, and oxygen atoms. Its structure and composition give it certain physical properties, such as being sweet and soluble in water, but overall it is considered a chemical substance.
No, chemical reactions involve changes in the chemical composition of substances, while physical changes involve changes in the physical state or appearance of a substance without altering its chemical composition.
All materials are made up of atoms, which are the smallest unit of a chemical element. These atoms are held together by forces that give the material its physical and chemical properties.
Physical properties of matter are characteristics that can be observed or measured without changing the composition of the substance, like color, texture, density, melting point, and boiling point. Chemical properties describe how a substance can undergo changes to form new substances, such as flammability, reactivity, acidity, toxicity, and oxidation state.
When matter undergoes a physical change, its state or appearance may change, but its chemical composition remains the same. For example, when water is heated and turns into steam, its physical state changes from liquid to gas, but it is still composed of H2O molecules.
Explain the difference between chemical change and physical change, and provide examples of each. Define chemical change and physical change, and provide examples to illustrate. Differentiate between chemical change and physical change, and give examples to clarify the distinction.
Examples: density, hardness, boiling point, refractive index.
Physical properties are characteristics of a material that can be observed or measured without changing the composition of the material. These properties give information about how a material behaves under different conditions (e.g. melting point, density, conductivity). They are considered "physical" because they are related to the material's physical state and structure, rather than its chemical properties.
A physical property doesn't depend strongly on the ratio of chemicals. Nuclear properties have to do with the nucleus of atoms. Chemical properties depend on the specific ratio of the chemicals involved. Burning is a chemical event. Two hydrogens are consumed for every one of oxygen in the creation of water.
Physical properties are characteristics of a substance that can be observed or measured without changing its chemical composition. Examples include color, density, melting point, boiling point, solubility, and conductivity.
Some examples of physical properties that can be measured include mass, volume, density, temperature, and conductivity. These properties help to describe the characteristics of a material or substance based on its physical nature.
What do u mean by chemical or physical reaction... Please give me an answer so i can give you the answer.
Sugar is a chemical compound. It is a carbohydrate that consists of carbon, hydrogen, and oxygen atoms. Its structure and composition give it certain physical properties, such as being sweet and soluble in water, but overall it is considered a chemical substance.
No, chemical reactions involve changes in the chemical composition of substances, while physical changes involve changes in the physical state or appearance of a substance without altering its chemical composition.
Brown, Liquid
A physical property is one that can be changed without altering the chemical formula of the substance, e.g., gas to liquid. A chemical property is one that is unique to that substance and altering it will change that substance chemically, e.g. density or molar mass.
All materials are made up of atoms, which are the smallest unit of a chemical element. These atoms are held together by forces that give the material its physical and chemical properties.