I think it is impossible to know
When the object is between the center of curvature (C) and the focal point (F) of a concave mirror, it forms a virtual, upright, and magnified image behind the mirror. This configuration is often used in makeup mirrors, shaving mirrors, and headlights to provide a magnified reflection of the object without having to move the mirror closer to the object.
When the object is located between the center of curvature (C) and the focal point (F) of a concave mirror, the real image appears magnified and is located beyond the center of curvature. This is due to the converging nature of concave mirrors when the object distance is within the focal length.
The 6 cases for producing images formed by a concave mirror are: 1) Object beyond C: Real, inverted, diminished image; 2) Object at C: Real, inverted, same size image; 3) Object between C and F: Real, inverted, magnified image; 4) Object at F: No image formed; 5) Object between F and mirror: Virtual, upright, magnified image; 6) Object at infinity: Real, inverted, diminished image at focus.
C to F: F = 1.8*C + 32C to K: K = C - 273.15 F to C: C = 5/9*(F- 32) F to K: K = 5/9*(F- 32) - 273.15 K to C: C = K + 273.15 K to F: K = 1.8*(K - 273.15) + 32
There are 180 degrees Fahrenheit between 0°C and 100°C.
When the object is between the center of curvature (C) and the focal point (F) of a concave mirror, it forms a virtual, upright, and magnified image behind the mirror. This configuration is often used in makeup mirrors, shaving mirrors, and headlights to provide a magnified reflection of the object without having to move the mirror closer to the object.
When the object is located between the center of curvature (C) and the focal point (F) of a concave mirror, the real image appears magnified and is located beyond the center of curvature. This is due to the converging nature of concave mirrors when the object distance is within the focal length.
The 6 cases for producing images formed by a concave mirror are: 1) Object beyond C: Real, inverted, diminished image; 2) Object at C: Real, inverted, same size image; 3) Object between C and F: Real, inverted, magnified image; 4) Object at F: No image formed; 5) Object between F and mirror: Virtual, upright, magnified image; 6) Object at infinity: Real, inverted, diminished image at focus.
The distance between C and D + The distance between D and E + The distance between E and F. :o)
There is no objects in C.
[object Object]
Polar covalent. There is a significant difference in electronegativity between C and F.
The interval between a C and an F that results in a diminished 5th is six half steps.
Franchisee is the middle man between principle and retail customer C and F agent is the middleman between principle and wholesailer
Java is object oriented, C is not...
Class methods are the member functions that act upon member variables. An object is an instance of a class. C does not support object-oriented programming, but C++ does.
The Difference b/w FOB and C&F is FOB + Insurance + Freight = C&F I.e Insurance and freight in both the valuation.