A 5 m³ tank contains chlorine at 300 kPa and 300K after 3 kg of chlorine has been used. Determine the original mass and pressure if the original temperature was 315K. Answers: 45.66 kg, 337.1 kPa.
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Solve problem no.08 and show the solution.
Note: The answer is given on the bottom side of the image, just show the solution on how to get it.
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- A 12 cm tall bbject is placed 15 cm away from a convex miror of radius of curvature r=60 cm. How tall is the resulting image? Select one: t of Oa. -18 cm b. 18 cm O c. -8 cm O d. 8 cmHello, I need help with questions #6 and #7. Thank you!My answer is correct, but please write find my wrong in my explanation(process detail). Also, watch the professor's comment. I attach the image and write my process of explanation and the professor's process and comment.
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- Select all statement that are true regarding spherical mirrors and the images that they produce. (4 are correct. Note that choosing an incorrect statment will result in a deduction) O The image formed by a single interaction with a convex spherical mirror will always yeild a virtual image. O The image produced by a single interaction with a concave spherical mirror will always be larger than the object. O Virtual images are always formed on the backside of a mirror. O The image produced by a single interaction with a convex spherical mirror will always be smaller than the object. O The image produced by a single interaction with a concave spherical mirror will always be smaller than the object. O Regarding a convex spherical mirror; if an upright object is located within the focal point of the mirror, the image will be upright as well. O The image produced by a single interaction with a convex spherical mirror will always be larger than the object. O Regarding a concave spherical…Ving you must live off the land while you wait for rescue. One morning, you attempt to spear a fish for breakfast. You spot a fish in a shallow river. Your first instinct is to aim the spear where you see the image of the fish, at an angle $ = 43.40° with respect to the vertical, as shown in the figure. %3D However, you know from physics class that you should not Image throw the spear at the image of the fish, because the actual location of the fish is farther down than it appears, at a depth H. of H = 0.9000 m. This means you must decrease the angle at which you throw the spear. This slight decrease in the angle is represented as a in the figure. If you throw the spear from a height h = 1.150 m above the %3D water, calculate the angle decrease a. Assume that the index of refraction is 1.000 for air and 1.330 for water. 1.48 a = Incorrect