1.333
"The refractive index of water is 4 / 3" means the refractive index of water with respect to air. "The refractive index of glass is 3 /2" means the refractive index of glass with respect to air. You change the question as ," what is the refractive index of glass with respect to water? The answer is it is the ratio of refractive index of of glass with respect to air to the refractive index of water with respect to air =( 3/2) divided by( 4/3) = 1.125
Generally, denser mediums have higher refractive index. For example, water has a higher refractive index compared to air. Similarly, glass has a higher refractive index than water.
The refractive index of salt water depends on the concentration of salt. For typical ocean water with a salinity of around 3.5%, the refractive index is approximately 1.34. If the salinity is higher, the refractive index will also increase.
Actually we define refractive index with respect to a standard medium. Air has been taken as that standard. Hence refractive index of air is 1 and that of water is 1.33. But refractive index of water with respect to glass is 1.33/1.5 = 0.887 So, the answer is "water".
The refractive index of water can be determined by measuring the speed of light in water and dividing it by the speed of light in a vacuum. Typically, the refractive index of water at room temperature is around 1.33.
"The refractive index of water is 4 / 3" means the refractive index of water with respect to air. "The refractive index of glass is 3 /2" means the refractive index of glass with respect to air. You change the question as ," what is the refractive index of glass with respect to water? The answer is it is the ratio of refractive index of of glass with respect to air to the refractive index of water with respect to air =( 3/2) divided by( 4/3) = 1.125
Generally, denser mediums have higher refractive index. For example, water has a higher refractive index compared to air. Similarly, glass has a higher refractive index than water.
The refractive index of salt water depends on the concentration of salt. For typical ocean water with a salinity of around 3.5%, the refractive index is approximately 1.34. If the salinity is higher, the refractive index will also increase.
The refractive index of glass is around 1.5, while the refractive index of water is around 1.33. This means that light travels faster in water than in glass. The difference in refractive index is why we observe light bending when it passes from air into glass or water, a phenomenon known as refraction.
Actually we define refractive index with respect to a standard medium. Air has been taken as that standard. Hence refractive index of air is 1 and that of water is 1.33. But refractive index of water with respect to glass is 1.33/1.5 = 0.887 So, the answer is "water".
The refractive index of water can be determined by measuring the speed of light in water and dividing it by the speed of light in a vacuum. Typically, the refractive index of water at room temperature is around 1.33.
Each substance has an index of refraction. The index of refraction of water is about 1.3330 . The index of refraction of air at standard conditions is about 1.0003 . There is no such thing as the index of refraction of "water to air".
Refractive index of vacuum is 1.
The refractive index of water can change with factors like temperature, pressure, and the presence of impurities or contaminants. Changes in these factors can alter the density and molecular structure of water, affecting how light travels through it and thus causing variations in its refractive index.
The refractive index of oil can vary based on the type of oil, but typically falls in the range of 1.4 to 1.6. The refractive index of water is 1.33. Oil has a higher refractive index compared to water, which causes light to bend more when passing through oil than water.
The refractive index of water can be calculated by measuring the angle of incidence and the angle of refraction of light passing from air to water, and using Snell's Law: n1 x sin(theta1) = n2 x sin(theta2), where n1 is the refractive index of air (approximately 1) and n2 is the refractive index of water. This is typically done using a device called a refractometer.
The refractive index of a material is related to how light propagates through it. Ice has a lower refractive index than water because its molecular structure is less dense and more sparse compared to water. This difference in molecular arrangement affects how light interacts with the substance, leading to a lower refractive index in ice compared to water.