Object O stands on the central axis of a spherical mirror. The table gives object distance p, the type of mirror, and focal distance f. Find the image distance i and the lateral magnification m of the object, including signs. p (cm) i (cm) Mirror f (cm) +7.9 convex *15 sign not given Describe the image. (Select all that apply.) O real virtual O upright inverted on the same side of the mirror as O on the opposite side of the mirror O O O

Answer in bold please

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**Physics Problem: Spherical Mirror Analysis** **Problem Statement:** Object O stands on the central axis of a spherical mirror. The table provides the object distance \( p \), the type of mirror, and the focal distance \( f \). Calculate the image distance \( i \) and the lateral magnification \( m \) of the object, including signs. **Data Table:** | \( p \) (cm) | Mirror Type | \( f \) (cm) | \( i \) (cm) | \( m \) | |--------------|-------------|---------------|--------------|---------| | +7.9 | convex | *15 | | | \(* sign not given\) **Description of Image Properties (Select all that apply):** - [ ] real - [ ] virtual - [ ] upright - [ ] inverted - [ ] on the same side of the mirror as O - [ ] on the opposite side of the mirror **Instructions:** Use the given information to solve for the image distance and magnification. Consider the conventions and properties of convex mirrors in your calculations and selections. This exercise is designed to help you understand image formation using spherical mirrors, focusing on the mathematical relationships involved.