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What part of the body has cones in it has cones in it?
The eye .In there eye there is rod cells and cone cells. Rod cells detect color and Cone cells detect black and white. The cone cells let you see in the dark.
What angle will give the largest cone volume if a rod of length l is inclined at an angle theta to the x axis and the cone is formed by rotating this rod around the x axis?
In general the volume of any cone is: 1/3*pi*radius2*height
How do you calculate the volume of a sharpened pencil?
if it is a perfectly sharpened point so it makes a perfect cone on top then you can split it into two: the cylinder and the cone. the cylinder you work out by: Pi x r² x height r is the radius which is half of the diameter then you work the cone out by: 1/3 x Pi x r² x height then you add them together :)_ hope this helps :) but im not sure it willm, its diffiuclt....:(
When does euler's formula not work?
his formula does not work because if you get a cone it adds up to 0
What are the three solids put together thst make up a pencil?
hexagonal prism, a cone, and i believe circle or cylinder
Do bobcats have more rod cells or cone cells?
Bobcats have more rod cells than cone cells in their eyes. Rod cells are responsible for low-light vision and detecting motion, which are essential for nocturnal predators like bobcats. Cone cells, on the other hand, are responsible for color vision and detail, which are less critical for their hunting behavior.
Difference between rod cell and cone cell?
Rod cells are sensitive to dim light, while cone cells help you see colors.
What part of the body has cones in it has cones in it?
The eye .In there eye there is rod cells and cone cells. Rod cells detect color and Cone cells detect black and white. The cone cells let you see in the dark.
What angle will give the largest cone volume if a rod of length l is inclined at an angle theta to the x axis and the cone is formed by rotating this rod around the x axis?
In general the volume of any cone is: 1/3*pi*radius2*height
Is the eye cell a cone cell?
Cone cells are a type of photoreceptor cell in the retina of the eye that are responsible for color vision and high visual acuity. Each cone cell contains different pigments that respond to different wavelengths of light. Therefore, not all eye cells are cone cells, as the retina also contains rod cells, another type of photoreceptor cell that is more sensitive to low light levels and is responsible for night vision.
How cone and rod cells enable a person to see?
colors
How are Rod and Cone cells formed Where are they produced and can they be replaced if they die?
well rods and cones aren't cells, they are nerve ending. so I'm assuming if the nerve does die, the rod or cone will die along with it.
What are the receptors in the eye?
You have rod cells and cone cells as receptors in your eye. Rods are for intensity of the light. Cone cells are for color vision.
The specific cells in the eye which responds to wavelengths of light are?
rod and cone cells
How do rod and cone cells process light?
Rod cells are more sensitive to light and are responsible for low-light vision, while cone cells are responsible for color vision and detail in bright light. When light hits rod and cone cells, it triggers a cascade of chemical reactions that ultimately result in the generation of electrical signals that are sent to the brain via the optic nerve. The brain then processes these signals into the images that we see.
How are the Rod and cone cells in the eyes similar to the taste buds in your tongue?
The rod and cone cells in our eyes are one of our major senses. This is the sense of sight. The taste buds in our tongues are another one of our major senses. This is the sense of taste.
How are the rod and cone cells in the eye similar to the taste buds in your tongue?
Rod and cone cells in the eye and taste buds on the tongue are both specialized sensory cells that help detect stimuli: light in the case of rod and cone cells, and taste molecules in the case of taste buds. Both types of cells send signals to the brain that are interpreted as visual or taste sensations.
