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Question: suic blackboard com webapps assessment takelaunchjspcourse assessment d2591 341 ampcourse...

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s://uic blackboard. com webapps assessment take/launchjsp?course assessment d-2591 341 &course id= 144 191 1 &content d-,6356249 1 &stepa w Question Completion Status: QUESTION 19 1 points Save Lets say we are studying an imaginary planet with a radius of 7500 km and a mass of 5x1024 kg, what would its density be in units of kg/km3 3.24 x 108 kg/km3 5.42 x 1015 kg/km3 6.28 x 1021 kg/km3 2.83 x 1012 kg/km3 1.59 x 1020 kg/km 03.53 x 1013kg/m? QUESTION 20 1 points Save Click Save and Submit to save and submit. Click Save All Answers to save all answers Save All Answers Save and earch
p.yulllauk Duaru.com/webapps/assessment/take/launch jsp?course assessment id 259134 18course id 144191 18&content id- 6356249 1steg Question Completion Status: QUESTION 20 1 points Lets say we are studying an imaginary planet with a radius of 7500 km and a mass of 5x1024 kg what would the volume of the planet be in units of cm3 @ 5.23 × 1024 cm? 1.77 x 1012 cm3 5.23x 1012 cm3 1.77 x 1027 cm3 1.77 x 1024 cm3 5.23 x1027 cm3 1 pointss QUESTION 21 sav we are studving an imaginarv planet with a radius of 7500 km and a mass of 5x1024 kg. what would Save All Answers Save Click Save and Submit to save and submit. Click Save All Answers to save all answers e to search
https://uic blackboard.com/webapps assessment take launchjsp?course assessmentid=2591341&course,d-144191 1&content d-6356249 Question Completion Status: QUESTION 21 1 pe Lets say we are studying an imaginary planet with a radius of 7500 km and a mass of 5x1024 kg, what would its density be in units of g/cm37 Please write in your answer to the nearest hundreth of a decimal. In the space below, only include a numerical value (for instance write 50000 instead of 50,000 g/cm3) QUESTION 22 pe Lets say we are studying a spherical object with a radius of s cm and a mass of 2,750 g what would its density be in units of g/cm3 Please write in your answer to the nearest hundreth of a decimal. In the space below, only include anumerical value (for instance write 5.25 instead of 5.25 g/cm3) Save All Answers Click Save and Submit to save and submit. Click Save All Answers to save all answers Type here to search
ull ulalkboara.com/webapps/assessment/take/launch ourse assessment jid 259134 18xcourse id-144191,18content id jsp?c v Question Completion Status QUESTION 18 A planet has a radius of 69,911 km and a mass of 1.89x1027kg To calculate the bulk density of this planet in g/cm3, you must (choose all that apply Convert the mass from kg to g by using the conversion factor 1 kg 1000g Convert the volume from km3 to cm3 by using the conversion factor 1 km3- 1x1015 cm3 Divide the mass by tibvolume Calculate the volume of the planet using the formula Va 4/3 T3 Calculate the volume of the planet using the formula V 4 π Convert the volume from km to cm by using the conversion factor 1 km 100,000 cm Divide the volume by the mass Convert the volume from km2 to cm2 by using the conversion factor 1 km2 1x1010 cm2 Convert the mass from kg to g by using the conversion factor 1 kg 100g Click Save and Submit to save and submit. Click Save All Answers to save all answers Save Al O Type here to search HD
Mass (k) 1000g 1 km Volume (km) kg 100,000 cm QUESTION 17 1 points Sa Neptune is commonly referred to as a Gas Giant. It has a radius of 24,764 km and a mass of 1.02x1026 kg, What is the density of Neptune in g/cm3 6.36 g/cm3 1.60*1012 g/cm3 6.23 g/cm3 4.05 g/cm3 1,60 g/cm QUESTION 18 1 points Save andS Click Sove and Submit to save and submit. Click Save All Answers to sove all answers ype here to search 80
v Question Completion Status: 6.36 1013 kg/km3 QUESTION 16 Now, if we were going to set up our equation for density in order to convert our units from would we set up our cacluation? kg/km3 to g/cm3 how Mass (ko) Volume (m 1 km2 Density cm 1000g x kg 1x 1015 cm3 Density ( )--Mass (kg) Density cm3 Volume (km 1 kg x_1k㎡ 1000 g 1x 1015 cm3 x 1 x 1015 cm3 Density (g)--Mass (kg) 1000 Density (-cm3). Volume (km3) x-,-x Mass (kg) Volume (kms) 1000 g 1 kg Density ( )= x x cm 100,000 cm Click Save and Submit to save and submit. Click Save All Answers to save all answers Save All An to search
Pressure increases as depth in the Earth increases because of the density of rocks overlying a certain point Pressure increases as depth in the Earth decreases because of the density of rocks overlying a certain point Pressure plateaus to a constant value in the Earths mantle because the density of rocks remains constant QUESTION 15 1 p Neptune is commonly referred to as a Gas Giant. it has a radius of 24,764 km and a mass of 1,02x1026 kg What is the density of Neptune h kg/km3 1.60*1012 kg/km3 1.60 kg/km3 6.23 10-13 kg/km3 405*1038kg/km 6.36 1013 kg/km3 Save All Answers Click Save and Submit to sove and submit. Click Save All Answers to save all answers O Type here to search 1080
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