Sol:
Real
10.57 mm
Inverted
A 9.27 mm high chocolate chip is placed on the axis of, and 11.3 cm from,...
A 9.35 mm high chocolate chip is placed on the axis of, and 12.9 cm from, a lens with a focal length of 5.65 cm. If it can be determined, is the chocolate chip's image real or virtual? cannot be determined O virtual Oreal How high is the image? Express the answer as a positive quantity. image height: mm If it can be determined, is the image upright or inverted with respect to the real thing? upright inverted O cannot...
You place a 9.57-mm-high chocolate chip on the axis of and 10.9 cm from a lens with focal length 5.57 cm. If it can be determined, is the chocolate chip's image real or virtual? O O O Cannot be determined Real Virtual How high is the image (expressed as a positive quantitiy)? Number וחות If it can be determined, is the image upright or inverted with respect to the real thing? O O O Cannot be determined Upright Inverted
A 5.51 mm high diamond is placed on the axis of, and 10.3 cm from, a lens with a focal length of −6.01 cm. If it can be determined, is the diamond's image real or virtual? real cannot be determined virtual How high is the image? Express the answer as a positive quantity. image height:____ mm If it can be determined, is the image upright or inverted with respect to the real thing? inverted cannot be determined upright
A 5.39 mm high diamond is placed on the axis of, and 12.3 cm from, a lens with a focal length of -6.81 cm. If it can be determined, is the diamond's image real or virtual? Oreal O cannot be determined O virtual How high is the image? Express the answer as a positive quantity. image height: mm If it can be determined, is the image upright or inverted with respect to the real thing? upright O inverted O cannot...
You place a 9.89-mm-high chocolate chip on the axis of and 10.7 cm from a lens with focal length 5.51 cm. If it can be determined, is the chocolate chip\'s image real or virtual? How high is the image (expressed as a positive quantitiy)? If it can be determined, is the image upright or inverted with respect to the real thing?
A 5.47mm high diamond is placed on the axis of, and 12.3cm from, a lens with a focal length of -6.07cm. If it can be determined, is the diamond's image real or virtual? How high is the image? Express the answer as a positive quantity. If it can be determined, is the image upright or inverted with respect to the real thing? A 5.47 mm high diamond is placed on the axis of, and 12.3 cm from, a lens with...
A 3.21 mm high diamond is placed on the axis of, and 10.5 cm from, a lens with a focal length of -6.79 cm. If it can be determined, is the diamond's image real or virtual? real virtual cannot be determined How high is the image? Express the answer as a positive quantity. image height: mm If it can be determined, is the image upright or inverted with respect to the real thing? inverted upright cannot be determined
A 3.85 mm high diamond is placed on the axis of, and 13.5 cm from, a lens with a focal length of -6.13 cm If it can be determined, is the diamond's image real or virtual? O cannot be determined O real O virtual How high is the image? Express the answer as a positive quantity. image height: If it can be determined, is the image upright or inverted with respect to the real thing? O cannot be determined O...
A 5.51 mm high diamond is placed on the axis of, and 11.5 cm from, a lens with a focal length of −5.15 cm. If it can be determined, is the diamond's image real or virtual? virtual cannot be determined real How high is the image? Express the answer as a positive quantity. image height: mmmm If it can be determined, is the image upright or inverted with respect to the real thing?
Asap Question 24 of 31 > You have a lens whose focal length is -5.87 cm. You place an object on the axis of the lens at a distance of 12.3 cm from it. How far is the object's image from the lens? Enter the answer as a positive quantity image distance: cm If it can be determined, is the image real or virtual? Oreal cannot be determined < Question 22 of 31 What is the focal length of 2.4...