They are spelled differently.
The apparent depth of an object submerged in water can be calculated using the formula: apparent depth = real depth / refractive index. Since the refractive index of water is approximately 1.33, the apparent depth of an object 5 meters below the water surface would be around 3.76 meters.
A voltamp is a unit of apparent power, which is the combination of voltage and current in an electrical circuit. A watt, on the other hand, is a unit of real power, which is the actual power consumed by a device. The relationship between voltamps and watts is that in an ideal circuit with no reactive components, the apparent power (voltamps) is equal to the real power (watts). However, in real-world circuits with reactive components like inductors and capacitors, the apparent power can be greater than the real power due to the presence of reactive power.
According to Wikipedia, all forms of power can be expressed in Watts, but typically one expresses only REAL Power in Watts (& Kilowatts).The standard is to express Apparent Power in Volt-Amperes (VA) (& KVA).The kilowatt is the unit of measure for true power; apparent power is measured in volt amperes.However, the volt ampere and the reactive volt ampere (for reactive power) are traditional units, used to help differentiate between apparent, true, and reactive power. SI recognises the watt as the unit for each.
Light coming from the fish under water deviate from its original path due to refraction phenomenon and its image is displaced from its actual position. The image of fish is appeared at shallower depth than its actual depth
Watts measure real power, while VA (volt-amperes) measure apparent power. Real power is the actual power consumed by a device, while apparent power includes both real power and reactive power. In simple terms, watts represent the actual work being done, while VA accounts for the total power used by a device.
Real depth Dr= Apparent depth/ refractive index of water Dr= Da / n water
The apparent depth of an object submerged in water can be calculated using the formula: apparent depth = real depth / refractive index. Since the refractive index of water is approximately 1.33, the apparent depth of an object 5 meters below the water surface would be around 3.76 meters.
Apparent depth is less than real depth due to the refraction of light as it passes from water to air. When light rays travel from a denser medium (like water) to a less dense medium (like air), they bend away from the normal, making objects submerged in water appear closer to the surface than they actually are. This bending of light causes our perception of depth to be distorted, leading to the phenomenon where objects look shallower than they truly are.
The way that light and dark create shadows is the same in both art and real life.
Real means existing in fact Apparent means obvious
peronality
business plans
The key differences between a digital piano and a real piano lie in their sound production and feel. Digital pianos use electronic sound samples and have weighted keys, while real pianos have strings and hammers for sound production. This impacts the playing experience as digital pianos may lack the depth and richness of sound that real pianos offer, and the feel of the keys may not be as authentic. However, digital pianos are more portable, require less maintenance, and often have additional features like volume control and different instrument sounds.
- Weak intermolecular forces -Low density
Real life is much more painstakingly.
What are differences between ideal and real cycle?
One is legitimate and fact, the other is false