(Water) (Aluminum) Density=2,700kg/m Speed = 6,200m/sec Density= 1,000kg/m Speed = 1,500m/sec P=10 Rg and pt is power here Part a- A wave is propagating in an aluminum block surrounded by water (you can consider Material 1 as aluminum and Material 2 as Water). The pressure amplitude of the incident wave is 10N/m Compute Pr, Pt of the reflected and transmitted waves and show a drawing of the waves similar to the one Part bi compute Pr, Pt and show a clear drawing of the waves assuming Material 1 is water and Material 2 is Aluminum.
(Water) (Aluminum) Density=2,700kg/m Speed = 6,200m/sec Density= 1,000kg/m Speed = 1,500m/sec P=10 Rg and pt is power here Part a- A wave is propagating in an aluminum block surrounded by water (you can consider Material 1 as aluminum and Material 2 as Water). The pressure amplitude of the incident wave is 10N/m Compute Pr, Pt of the reflected and transmitted waves and show a drawing of the waves similar to the one Part bi compute Pr, Pt and show a clear drawing of the waves assuming Material 1 is water and Material 2 is Aluminum.
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Transcribed Image Text:(Water)
Density=1,000kg/m
Speed = 1,500m/sec
(Aluminum)
Density=2,700kg/m
Speed = 6,200m/sec
P=10
pr and pt is power here
Part a
A wave is propagating in an aluminum block surrounded by water (you can consider Material 1 as
aluminum and Material 2 as Water). The pressure amplitude of the incident wave is 10N/m2.
Compute Pr, Pt of the reflected and transmitted waves and show a drawing of the waves similar to the
one
Part b
compute Pr, Pt and show a clear drawing of the waves assuming Material 1 is
water and Material 2 is Aluminum. |
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