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What are diverging and converging lenses?
Lenses enable individuals to view objects. A Converging lens has a positive focal length, which facilitates the convergence of the exiting rays. While, diverging lenses have a negative focal length, which facilitates the divergence of the exiting rays.
What happens to stars temperature as it expand?
As a star expands, its temperature decreases. This is because the energy in the star becomes more spread out as the star grows in size, leading to a decrease in temperature. Although the surface of the star can appear brighter as it expands, the overall temperature of the star decreases.
What happens to particles in a gas?
Particles are spread out to the maximum of the space available.
What happens to relative humidity when temperature rises?
When temperature rises, the capacity of air to hold water vapor increases. Consequently, the relative humidity decreases because the amount of moisture present in the air remains the same, but it is spread out over a larger volume.
What happens to liquids and gases as they are heated?
The molecules in side move or spread apart
What happens to temp when particles are spread out and move rapidly?
When particles are spread out and moving rapidly, the temperature increases. This is because the kinetic energy of the particles is higher, causing more collisions and leading to an overall increase in thermal energy and temperature.
Why is convex lens also called converging lens?
because light rays meet at a single point and do not spread out.
What happens if you bake chocolate cookies at a lower temperature?
Your cookies will get warm and spread out. They will not be the desired shape and may not cook thoroughly.
What are converging and diverging lens?
A converging lens is thicker in the center than at the edges and focuses light rays to a single point known as the focal point. In contrast, a diverging lens is thinner in the center and causes light rays to spread out.
What happens to light after it passes through a converging lens and after it passes through a diverging lens?
After passing through a converging lens, light rays are brought together to a focal point. This lens is used to focus light, resulting in an image formed either in front of or behind the lens depending on the object distance. In contrast, after passing through a diverging lens, light rays spread out as if coming from a focal point behind the lens. This lens causes light rays to diverge, making objects appear smaller and virtual.
Which continents that's spread across the three temperature zones?
Whichcontinents that's spread across the three temperature zones
Converging or diverging lens are thicker at the center than at the edge?
A converging lens is thicker at the center than at the edge. This design helps focus light rays towards a focal point. Conversely, a diverging lens is thinner at the center than at the edge, causing light rays to spread out.
What happens when a fluid is compressed?
When a fluid is compressed, the volume of the fluid decreases while the pressure and temperature increase. This leads to an increase in the density of the fluid.
What are two main types of lenses?
The two main types of lenses are converging lenses, which focus light rays to a focal point, and diverging lenses, which cause light rays to spread out. Converging lenses are thicker in the middle and thinner at the edges, while diverging lenses are thicker at the edges and thinner in the middle.
What happens when the temperature goes up in a closed space?
When temperature goes up, the molecules are moving faster and are more spread-out, so pressure will build up in the enclose area, and when it gets hot enough, it will burst through the enclose area.
Which of the following is accurate in describing converging and diverging lenses?
If a single lens forms a virtual image of an object, thenthe lens could be either a diverging or a converging lens.Which statement about a single thin lens is correctA diverging lens always produces a virtual upright image.
When can gas spread the fastest?
when the gas is in a high temperature
