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Apparent Weight01:09

Apparent Weight

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True weight is the measure of the gravitational force acting on an object. However, if the object accelerates, its measured weight is different from its true weight. Similar observations can be made when the object is submerged in water. An object's weight in water is its apparent weight, which is equal to the difference between its true weight and the buoyant forces.
Consider a person standing on a bathroom scale inside an elevator. If the scale is accurate at rest, its reading equals the...
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Photoelectric Effect02:26

Photoelectric Effect

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When light of a particular wavelength strikes a metal surface, electrons are emitted. This is called the photoelectric effect. The minimum frequency of light that can cause such emission of electrons is called the threshold frequency, which is specific to the metal. Light with a frequency lower than the threshold frequency, even if it is of high intensity, cannot initiate the emission of electrons. However, when the frequency is higher than the threshold value, the number of electrons ejected...
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Weightlessness01:01

Weightlessness

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When an object is dropped, it accelerates toward the center of the Earth. If the net external force on the object is its weight, it is said to be in free fall; that is, the only force acting on the object is gravity. Galileo was instrumental in showing that, in the absence of air resistance, all objects fall with the same acceleration g. However, when objects on the Earth fall downward, they are never truly in free fall, because there is always some upward resistance force from the air acting...
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Principle of Equivalence01:18

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According to Albert Einstein (1897-1955), free-falling and feeling weightless are intrinsically linked. If a person were in free-fall under gravity, for example, diving towards the Earth from an airplane, they would feel completely weightless. Similarly, a person descending in a lift may feel partially weightless. Broadly speaking, it is assumed that an object in a uniform gravitational field and an object undergoing constant acceleration in the absence of gravity are under the same...
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The Wave Nature of Light02:12

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The nature of light has been a subject of inquiry since antiquity. In the seventeenth century, Isaac Newton performed experiments with lenses and prisms and was able to demonstrate that white light consists of the individual colors of the rainbow combined together. Newton explained his optics findings in terms of a "corpuscular" view of light, in which light was composed of streams of extremely tiny particles traveling at high speeds according to Newton's laws of motion.
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The de Broglie Wavelength02:32

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In the macroscopic world, objects that are large enough to be seen by the naked eye follow the rules of classical physics. A billiard ball moving on a table will behave like a particle; it will continue traveling in a straight line unless it collides with another ball, or it is acted on by some other force, such as friction. The ball has a well-defined position and velocity or well-defined momentum, p = mv, which is defined by mass m and velocity v at any given moment. This is the typical...
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Related Experiment Video

Updated: Dec 21, 2025

Light Preference Assay to Study Innate and Circadian Regulated Photobehavior in Drosophila Larvae
07:14

Light Preference Assay to Study Innate and Circadian Regulated Photobehavior in Drosophila Larvae

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On a lightness phenomenon.

Baingio Pinna

    Journal of the Optical Society of America. A, Optics, Image Science, and Vision
    |May 14, 2020
    PubMed
    Summary
    This summary is machine-generated.

    A novel lightness phenomenon reveals that perceived contrast arises from visual dissimilarity, not just object belongingness. This finding extends understanding of visual illusions and contrast effects.

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    Area of Science:

    • Visual Perception
    • Psychophysics
    • Cognitive Neuroscience

    Background:

    • Lightness contrast illusions, such as the Koffka-Benussi ring and Benary cross, are often explained by the "belongingness" of elements to objects or figure-ground segregation.
    • Existing models focus on how elements group or segregate to influence perceived lightness.

    Purpose of the Study:

    • To demonstrate a new lightness phenomenon that extends the concept of "belongingness" in visual perception.
    • To investigate whether visible dissimilarity alone, independent of belongingness, can induce lightness contrast.

    Main Methods:

    • A novel visual stimulus was created with vertically grouped checks, alternating and reversing orientation in upper and lower halves against a homogeneous background.
    • The local contrast within each check remained constant, while the overall visual organization was maintained.

    Main Results:

    • Despite identical local contrast and visual organization, the inner area of checks in the upper group appeared darker than those in the lower group.
    • This perceived lightness difference occurred without any change in the "belongingness" of the elements.

    Conclusions:

    • Visible dissimilarity is sufficient to elicit a clear lightness difference, even when "belongingness" is not a factor.
    • This finding suggests that the detection and highlighting of any visual difference may be a fundamental biological mechanism driving contrast effects.