Please help me answering the following questions

1)

In the following three scenarios, an object is located on one side of a converging lens. In each case, you must determine if the lens forms an image of this object. If it does, you also must determine the following. 0 whether the image is real or virtual 0 whether the image is upright or inverted - the image's location, q o the image's magnification, M The focal length is f = 24.0 cm for this lens. Set both q and M to zero if no image exists. Note: If 4 appears to be infinite, the image does not exist (but nevertheless set q to 0 when entering your answers to that particular scenario). (a) The object lies at position 24.0 cm. (Enter the value for q in cm.) :1 M: Select all that apply to part (a). C] real C] virtual C] upright C] inverted C] no image (b) The object lies at position 9.60 cm. (Enter the value for q in cm.) q= cm Select all that apply to part (b). C] real C] virtual C] upright C] inverted C] no image (c) The object lies at position 84.0 cm. (Enter the value for q in cm.) :1 M= (c) The object lies at position 84.0 cm. (Enter the value for q in cm.) [:1 M: Select all that apply to part (c). D real [3 virtual C] upright C] inverted C] no image A teacher is examining laboratory supplies with a diverging lens. The lens has a focal length of magnitude 15.2 cm. The lens is always held between the teacher's eye and the object under study. However, the distance between the lens and the object is different for each object that the teacher observes. Determine the image location and magnification for each of the following three objects. In addition, determine whether the image is real or virtual, whether it is upright or inverted, and whether it makes the object appear larger or smaller than actual size. (a) The object lies 30.4 cm behind the lens. Determine the image location. (Enter the magnitude in cm.) lal = cm Determine the magnification. M = Select all of the following that apply to the image formed in part (a). O real O virtual O upright O inverted O enlarged O shrunken (b) The object lies 15.2 cm behind the lens. Determine the image location. (Enter the magnitude in cm.) 191 = cm Determine the magnification. M = Select all of the following that apply to the image formed in part (b). O real O virtual O upright O inverted O enlarged O shrunken (c) The object lies 7.60 cm behind the lens. Determine the image location. (Enter the magnitude in cm.) lq1 = cm Determine the magnification. M = Select all of the following that apply to the image formed in part (c). O real O virtual O upright O inverted O enlarged O shrunkenTwo converging lenses, each of focal length 14.8 cm, are placed 39.3 cm apart, and an object is placed 30.0 cm in front of the first lens. Where is the final image formed? The image is located cm ---Location--- V What is the magnification of the system? M = x Need Help? Read It Watch It Show My Work (Optional) [-/5 Points] DETAILS SERCP11 23.5.P.043.MI. MY A 1.00-cm-high object is placed 3.50 cm to the left of a converging lens of focal length 7.25 cm. A diverging lens of focal length -16.00 cm is 6.00 cm to the right of the converging lens. Find the position and height of the final image. position cm ---Select--- height cm Is the image inverted or upright? O upright O inverted Is the image real or virtual? O real O virtualA technician places a fluid substance, with a refractive index of 1.65, between two horizontal panes of flat glass (each of which has n = 1.55). She then illuminates the assembly from above with monochromatic light (1 = 690 nm). What is the minimum thickness (in nm) that the liquid layer must have, if the light is to be strongly reflected back toward its source? nm Need Help? Read It Show My Work (Optional) [-/2 Points] DETAILS SERCP11 24.4.P.018. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A thin film of oil (n = 1.14) is located on smooth, wet pavement. When viewed from a direction perpendicular to the pavement, the film reflects most strongly red light at 640 nm and reflects no light at 427 nm. (a) What is the minimum thickness of the oil film? nm (b) Let m, correspond to the order of the constructive interference and my to the order of destructive interference. Obtain a relationship between m, and my that is consistent with the given data.Nonreflective coatings on camera lenses reduce the loss of light at the surfaces of multilens systems and prevent internal reflections that might mar the image. Find the minimum thickness of a layer of magnesium fluoride (n = 1.38) on flint glass (n = 1.66) that will cause destructive interference of reflected light of wavelength 530 nm near the middle of the visible spectrum. nm Need Help? Read It @ Show My Work (Optional) ? [-/2 Points] DETAILS SERCP11 24.7.P.032. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A student and his lab partner create a single slit by carefully aligning two razor blades to a separation of 0.550 mm. When a helium-neon laser at 543 nm illuminates the slit, a diffraction pattern is observed on a screen 1.65 m beyond the slit. Calculate the angle dak to the first minimum in the diffraction pattern and the width of the central maximum. HINT (a) the angle dark to the first minimum in the diffraction pattern (in degrees) (b) the width of the central maximum (in m) mA screen is placed 52.4 cm from a single slit that is illuminated with light of wavelength 683 nm. If the distance between the first and third minima in the diffraction pattern is 2.90 mm, what is the width of the slit? mm Need Help? Read It # Show My Work (Optional) ? [-/2 Points] DETAILS SERCP11 24.8.P.040. Intense white light is incident on a diffraction grating that has 674 lines/mm. (a) What is the highest order in which the complete visible spectrum can be seen with this grating? (Enter 1 for first order, 2 for second order, etc.) (b) What is the angular separation between the violet edge (400 nm) and the red edge (700 nm) of the first order spectrum produced by the grating?*l *1 Sunlight is incident on a diffraction grating that has 3,800 lines/cm, The second-order spectrum over the visible range (400700 nm) is to be limited to 2.15 cm along a screen that is a distance L from the grating. What is the required value ofL? Em Need Help