(13%) Problem 8: Suppose you have a 9.8 cm diameter fire hose with a 3.8 cm diameter nozzle. a 50% Part (a) Calculate the pressure drop due to the Bermoulli effect us water enters the nozzle from the hose at the rate of 40.0 L's. Take 1.00 x 10 kg'm for the density of the water. Grude Summury P, - P2 = 1 Ietucrions Potential sin() cos() tun() 7 8 9 Submissions HUMI EA 4 Alvempis romsining: 3 (S% per amenmpt) cotun() asin() acos() 6 detailed view atan() acotun() sinh() 1 3 cosh() tanb() cotanh() LND ODegrees Radians vo SPACH CLBAR Suhmit Hint Feedhock I give up! Hints: dalintion per hinl. Hints remaining 2 Feedback: 5% duluction per Joallack. 50% Part (b) To what maximum height, in meters, above the nozzle can this water rise? (The actual height will he significantly smaller due to air resistance.)
(13%) Problem 8: Suppose you have a 9.8 cm diameter fire hose with a 3.8 cm diameter nozzle. a 50% Part (a) Calculate the pressure drop due to the Bermoulli effect us water enters the nozzle from the hose at the rate of 40.0 L's. Take 1.00 x 10 kg'm for the density of the water. Grude Summury P, - P2 = 1 Ietucrions Potential sin() cos() tun() 7 8 9 Submissions HUMI EA 4 Alvempis romsining: 3 (S% per amenmpt) cotun() asin() acos() 6 detailed view atan() acotun() sinh() 1 3 cosh() tanb() cotanh() LND ODegrees Radians vo SPACH CLBAR Suhmit Hint Feedhock I give up! Hints: dalintion per hinl. Hints remaining 2 Feedback: 5% duluction per Joallack. 50% Part (b) To what maximum height, in meters, above the nozzle can this water rise? (The actual height will he significantly smaller due to air resistance.)
Related questions
Question

Transcribed Image Text:(13%) Problem 8: Suppose you have a 9.8 cm diameter fire hose with a 3.8 cm diameter nozzle.
å 50% Part (a) Calculate the pressure drop due to the Bemoulli effect us water enters the nozzle from the hose at the rate of 40.0 L's. Take 1.00 x 10
kg'm for the density of the water.
Grude Summury
P - P2= |
Ietucrions
Potential
sin()
cos()
tun()
7
LIOME
Submissions
Alvempis remsining: 3
(S% per amempt)
detailed view
cotun()
asin()
acos()
E A A 4
6
atan()
cosh()
ODegrees
aacotun()
sinh)
1
2
3
tanbi)
cotanh()
LND
Radians
vO ACKSPACH CLIAR
Suhmit
I give up!
Hint
Feedhack
Hints: 2 dalintion per hint. Hints renining 2
Feedback: 55 duduction per Jaalback.
-a 50% Part (b) To what maximum height, in meters, above the nozzle can this water rise? (The actual height will he significantly smaller due to air
resistance.)
6.
Expert Solution

This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
