A telescope.
The monocular depth cue you are referring to is called "interposition." When an object partially obscures another object in view, our brain interprets the closer object as blocking the view of the object behind it, resulting in the perception of depth and distance between the two objects.
The kinematics equation for distance is: distance initial velocity time 0.5 acceleration time2. This equation is used to calculate the displacement of an object in motion by plugging in the values of initial velocity, time, and acceleration to find the total distance traveled by the object.
The object distance in optical physics refers to the distance between the object being viewed and the lens or mirror that is used to form an image of the object. It is an important factor in determining the characteristics of the image formed by the optical system.
The distance equation in kinematics is: distance initial velocity x time 0.5 x acceleration x time2. This equation is used to calculate the total distance traveled by an object in motion by taking into account the initial velocity, time elapsed, and acceleration of the object. By plugging in the values for these variables, one can determine the distance covered by the object during its motion.
The image distance is the distance from the lens to where the image is formed, while the object distance is the distance from the lens to the object. In general, for real images, the image distance is different from the object distance. For virtual images, the image distance is negative and the object distance is positive.
Speed=Distance travelled by the object /Time taken to cover the distance.
The size of the object would depend on its distance from the observer. The diameter of the field of view refers to the circular area you can see through a microscope or similar device and not the actual size of an object.
The object used to view the outside from inside the submarine is called a periscope.
Yes. In convex mirrors, the image is always erect and diminished, at whatever distance the object may be in front of the mirror. The convex mirror has a wide field of view and hence is used as a rear view( or driving) mirror in vehicles, to view the traffic behind.
it depends on height of object and distance of object from the mirror
an electron microscope
The monocular depth cue you are referring to is called "interposition." When an object partially obscures another object in view, our brain interprets the closer object as blocking the view of the object behind it, resulting in the perception of depth and distance between the two objects.
The kinematics equation for distance is: distance initial velocity time 0.5 acceleration time2. This equation is used to calculate the displacement of an object in motion by plugging in the values of initial velocity, time, and acceleration to find the total distance traveled by the object.
The object distance in optical physics refers to the distance between the object being viewed and the lens or mirror that is used to form an image of the object. It is an important factor in determining the characteristics of the image formed by the optical system.
The distance equation in kinematics is: distance initial velocity x time 0.5 x acceleration x time2. This equation is used to calculate the total distance traveled by an object in motion by taking into account the initial velocity, time elapsed, and acceleration of the object. By plugging in the values for these variables, one can determine the distance covered by the object during its motion.
The image distance is the distance from the lens to where the image is formed, while the object distance is the distance from the lens to the object. In general, for real images, the image distance is different from the object distance. For virtual images, the image distance is negative and the object distance is positive.
used to view any object at different magnifications