All telescopes rely on some ability to focus light to a point. The two ways are refraction and reflection. Here I describe what they are in the context of telescopes. This is part of my intro Astronomy class I taught at Willam Paterson University and CUNY Hunter. • Telescope Function: Telescopes are instruments used to observe and measure light from celestial objects, providing information about the universe. • Elementary Telescope Design: An elementary telescope consists of two lenses: a primary lens (objective) that gathers and focuses light, and a magnifying lens that enlarges the image for the viewer. • Refracting Telescope: A type of telescope that uses lenses to gather and focus light, with the primary lens (objective) being the first element to intercept light. • Medium of Light: The substance through which light travels, such as air, water, or a vacuum. • Refraction: The bending of light as it passes from one medium to another with a different density, like from air to water. • Prism and Refraction: A prism, typically a triangular piece of glass, demonstrates refraction by bending light as it enters and exits, creating a spectrum of colors. • Light Refraction in Prism: Light bends towards the normal when entering a denser medium like glass from air, and away from the normal when exiting to a less dense medium. • Wavelength and Refraction: The degree of light bending varies with wavelength; red light bends less than blue light, causing color separation. • White Light Separation: A prism separates white light into its constituent colors because different wavelengths of light travel at different speeds in the prism. • Snell’s Law: Describes the relationship between the index of refraction and the angle of incidence and refraction when light passes from one medium to another. • Index of Refraction: A property of a material that describes how much the speed of light is reduced inside the material compared to a vacuum, and it is dependent on the wavelength of light. • Refraction: The bending of light as it passes from one medium to another with a different index of refraction. • Index of Refraction Definition: The index of refraction is defined as the speed of light in a vacuum divided by the speed of light in a given medium. • Wavelength Dependence: The index of refraction is a weak function of wavelength, meaning it changes slightly with different wavelengths of light. • Snell’s Law of Refraction: Snell’s law describes the relationship between the angle of incidence and the angle of refraction, considering the indices of refraction of the two media. • Lens Shaping: Lenses can be shaped by grinding a flat piece of glass to have a curved surface, similar to a sphere. Overall, the segment emphasizes clear definitions, underlying geometry, and practical observing guidance so viewers can connect the concept to the real sky.