I dont knao of an liquid sensig material but perhaps one of the temperature sensitive materials would do if the liquid you are sensing does not have the same temperature as the substrate on which you coul apply the liquid crystals that change color according to temperature (there are many in a wide array of temperature sensitive ranges)
Substance(s) is a temporary name to any material.
Yes, there can be changes in the appearance of a material due to various factors such as weathering, aging, chemical reactions, or alterations in its physical structure. These changes can affect color, texture, shine, strength, or other visual characteristics of the material.
One distinguishing feature between physical and chemical changes is that a physical change can be reverse or turn back to its original form, but chemical change cannot be return to its form because the material change.
Soldering of copper is a chemical change. This is because when soldering, the material undergoes a change in its chemical composition due to the reaction between the metal and the soldering material, typically a mixture of metals such as tin and lead. This results in the formation of new compounds that bind the parts together.
Yes, heating platinum and cooling it back to its original state is a physical change. This process involves a change in the state of matter (from solid to liquid and back to solid) without altering the chemical composition of the platinum.
Substance(s) is a temporary name to any material.
Heat raises the temperature of the material. If the change is small then there is only a physical change and allowing the material to return to its original temperature will return it to its original physical state.However, too much heat can result in chemical changes which are usually not reversible. For example, if you heat a piece of plastic enough it will crumple into a charred mass. That charred mass will not return to the pristine plastic.
That process is called transformation or transmutation where the original material undergoes a change in its chemical or physical composition resulting in a new material.
To calculate deformation in a material under stress, you can use the formula for strain, which is the change in length divided by the original length of the material. This can be represented as L / L, where is the strain, L is the change in length, and L is the original length of the material. By measuring the change in length and the original length, you can determine the deformation of the material under stress.
To find the strain in a material under stress, you can use the formula: Strain Change in length / Original length. Measure the change in length of the material when it is under stress and divide it by the original length of the material. This will give you the strain value.
The three factors are the: material properties (coefficient of thermal expansion), temperature change, and original dimensions of the object.
When a substance changes but still retains its original properties, the change is called a physical change. If it didn't retain its original properties, then it went through a chemical change.
Physical changes in materials occur when the material undergoes a change in its physical properties without any change in its chemical composition. Examples of conditions that can cause physical changes include changes in temperature, pressure, or exposure to light or electricity. Physical changes can include changes in state (such as melting or freezing), changes in shape or size, or changes in properties (such as conductivity or solubility).
Elastic deformation is a reversible change in shape or size of a material under stress, where the material returns to its original shape once the stress is removed. This type of deformation occurs within the elastic limit of the material, meaning it can withstand stress without undergoing permanent changes.
A rubber band can be stretched to change shape but can go back to its original form when released.
A change of state can affect a material's texture because it alters the arrangement of molecules within the material. For example, when water freezes into ice, its texture changes from liquid to solid, indicating a change in the arrangement of molecules. Similarly, when a metal material is heated and undergoes melting, its texture changes as well.
No, because percentage changes are multiplicative, not additive. The second percentage change is not applied to the original amount but to the original amount after it has been changed by the first percentage change.