The diagram shows 2 pieces of Earths crust

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The diagram shows 2 pieces of Earth’s crust pushing into each other. It appears

The diagram shows 2 pieces of Earth’s crust pushing into each other. It appears that the oceanic crust is sinking below the continental crust at this location. Why does the oceanic crust sink beneath the continental crust? (1) The oceanic crust has a greater density. (2) The oceanic crust is pulled down by Earth’s magnetic field. (3) The continental crust is stronger. (4) The continental crust is pulled upward by the Moon’s gravity.

If an object is “regular” volume can be calculated. V=Lx. Wx. H 3 =

If an object is “regular” volume can be calculated. V=Lx. Wx. H 3 = m. L V = cm x cm = cm

What is the object’s density? V = L x W x H = 3.

What is the object’s density? V = L x W x H = 3. 7 cm x 1. 2 cm x 16. 3 cm = 72. 4 cm 3 Density = Mass / Volume Density = 273. 8 g / 72. 4 m. L Density = 3. 78 g/m. L

Liquid volume can be measured in graduated cylinder. If mass of green liquid is

Liquid volume can be measured in graduated cylinder. If mass of green liquid is 67. 8 g… Density = Mass / Volume Density = 67. 8 g / 60. 4 m. L g Density = 1. 12 /m. L

If an object is “irregular” volume can be measured by water displacement.

If an object is “irregular” volume can be measured by water displacement.

If an object is “irregular” volume can be measured by water displacement. Know your

If an object is “irregular” volume can be measured by water displacement. Know your starting volume! 60. 5 m. L – 50 m. L = 10. 5 m. L

Water displacement can.

Water displacement can.

Measure water that comes out in a graduated cylinder. . .

Measure water that comes out in a graduated cylinder. . .

What is the object’s density? 19. 8 m. L – 17. 1 m. L

What is the object’s density? 19. 8 m. L – 17. 1 m. L = 2. 7 m. L Density = Mass / Volume 51. 842 g D= / 2. 7 m. L g D = 19. 2 /m. L

Remem ber to ALWA YS fol low th e step s:

Remem ber to ALWA YS fol low th e step s:

Remem ber to 1. Writ e equa ALWA tion YS fol low th e

Remem ber to 1. Writ e equa ALWA tion YS fol low th e step s:

Remem ber to ALWA YS fol low th e step 1. Writ e equa

Remem ber to ALWA YS fol low th e step 1. Writ e equa tion 2. Subs titute values with u nit s: s

Remem ber to A LWAY S follo 1. Writ w the e equa steps:

Remem ber to A LWAY S follo 1. Writ w the e equa steps: tion 2. Subs titute values 3. Calcu with u late an nits d reco rd ans wers w ith uni ts

Remem ber to A LWAY S follo 1. Writ w the e equa steps:

Remem ber to A LWAY S follo 1. Writ w the e equa steps: tion 2. Subs titute values 3. Calcu with u late an nits d reco rd ans wers w ith uni ts

According to an electronic balance, this rock has a mass of 13. 7 g.

According to an electronic balance, this rock has a mass of 13. 7 g. What is the rock’s density? m. L

A graduated cylinder has a mass of 40 g. A student determines the volume

A graduated cylinder has a mass of 40 g. A student determines the volume of liquid in a cylinder as shown: She measures the mass of the liquid AND the cylinder as 85 g. What is the liquid’s density? Density = mass/ volume = = 1. 4 85 g – 40 g / g/ m. L 32. 0 m. L