1 / 15

DENSITY

DENSITY. DENSITY. Pb. Pb. Both of the above blocks consist of pure lead (Pb). Pb. Pb. WHICH BLOCK HAS THE GREATER DENSITY?. IF YOU ANSWERED, “THEY HAVE THE SAME DENSITY.” YOU ARE CORRECT!!!. WHY?. WHY?. 1. Both of the above blocks consist of pure lead (Pb).

kapono
Download Presentation

DENSITY

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. DENSITY

  2. DENSITY Pb Pb Both of the above blocks consist of pure lead (Pb)

  3. Pb Pb WHICH BLOCK HAS THE GREATER DENSITY? IF YOU ANSWERED, “THEY HAVE THE SAME DENSITY.” YOU ARE CORRECT!!! WHY?

  4. WHY? 1. Both of the above blocks consist of pure lead (Pb) 2. Density is a ratio of Mass to Volume (D=M/V). Let’s do some calculations to explore this.

  5. Let’s take measurements of each block. Small block: mass: 272.16 g linear measurements: 2.00cm x 3.00cm x 4.00cm Large Block: mass: 1360.8 g linear measurements: 4.00cm x 5.00cm x 6.00cm

  6. Let’s calculate the volume of each block. Small block: mass: 272.16 g Volume Calculations: 2.00cm x 3.00cm x 4.00cm = 24.0 cm3 Large Block: mass: 1360.8 g Volume Calculationss: 4.00cm x 5.00cm x 6.00cm = 120cm3

  7. Now let’s calculate the density of each. Small block: mass: 272.16 g Volume: 24.0 cm3 DENSITY=M/V 272.16 g = 11.3 g 24.0cm3 cm3 Large Block: mass: 1360.8 g Volume: 120cm3 DENSITY=M/V 1360.8g = 11.3g 120cm3 cm3

  8. Small block: mass: 272.16 g Volume: 24 cm3 272.16g = 11.3 g =DENSITY 24.0cm3 cm3 Large Block: mass: 1360.8 g Volume: 120cm3 1360.8g = 11.3g = DENSITY 120cm3 cm3 Note: the mass to volume ratios (DENSITIES) are the same.

  9. Density as a Conversion Factor Note: The units of density are in a ratio form, so density can be used as a conversion factor to change mass to volume or volume to mass. Let’s explore this.

  10. Problem: Determine the mass of a 1.00 L sample of Pb. (The density of Pb is 11.3 g/cm3, 1 L = 1000mL =1000 cm3 Solution: 1. What are the units of what we are looking for? __________________ = g (mass units = grams) 2. What do we have? 1.00 L______________ = g 3. Now convert L into g using density 1.00 L = g 1000 mL 1L 11.3 g mL 11300

  11. Problem: Determine the volume of a 1.00 lb (454 g) sample of Pb. (The density of Pb is 11.3 g/cm3) Solution: 1. What are the units of what we are looking for? __________________ = cm3 (volume units) 2. What do we have? 1.00 lb______________ = cm3 3. Now convert lb into cm3 using density 454 g 1.00 lb cm3 11.3 g 1.00 lb = cm3 40.17 40.2 cm3

  12. Let’s compare the two solutions. 1.00 L 1000 mL 11.3 g = 11300 g 1 L mL 1.00 lb 454 g cm3= 40.17 cm3 1.00 lb 11.3 g Compare how density was used in the two solutions.

  13. Now work with someone next to you to solve this problem. Problem: A rock having a mass of 136.17 g was placed in a graduated cylinder containing water with an initial reading of 23.0 mL. The water level rose to a reading of 48.5 mL. Calculate the density of the rock. Volume = 48.5 - 23.0 =25.5 mL Density = 136.17 g = 5.34 g = 5.34 g 25.5 mL mL cm3

  14. Cooking oil has a density of approximately 0.952 g/mL. a. Determine the mass of 550 mL of cooking oil. 550 mL = g 523.6 520 g b. Determine the volume of 870 g of cooking oil. 870 g = mL 913.9 910 mL

  15. Densities of Some Common Materials Substance Density g/cm3 water (25oC) 1.00 ice (0oC) 0.917 Gold 19.31 Lead 11.3 sand ?? Does density change with temperature?

More Related