Question

The dimensions of the control volume of the figure are L = 24 in, H = 9.7 in, W = 9.1 in and the angle is 34 degrees. A fluid

0 0
Add a comment Improve this question Transcribed image text
Answer #1

Here is the solution.....

00 n-part 161.13274125 X cos (34) n- past => 133.58809 Ib Aug

Add a comment
Know the answer?
Add Answer to:
The dimensions of the control volume of the figure are L = 24 in, H =...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • The dimensions of the control volume of the figure are L = 110 cm, H =...

    The dimensions of the control volume of the figure are L = 110 cm, H = 46.4 cm, W = 25.0 cm. A fluid with specific gravity SG = 0.98 moves through the control volume. The given velocity is V = 1.9 m/s. Calculate, in Newton, the y-axis contribution of the term Sos. VP (v-ü)dA at the plane where the velocity is. L 7W < H y Control volume X V Your Answer: -972.9

  • The dimensions of the control volume of the figure are L = 811 mm, H =...

    The dimensions of the control volume of the figure are L = 811 mm, H = 441 mm, W = 300 mm and the angle is 46 degrees. A fluid with specific gravity SG = 0.831 occupies the control volume. The absolute pressure P1 on the top plane is 106.5 kPa. Calculate, in Newton, the contribution of this pressure to the x-component of the linear momentum balance: Ses Volv-ñ)da - ΣF The atmospheric pressure today is 99.6 kPa P1 H...

  • A fluid exits the control volume of the Figure at a mass flow rate of 1.71...

    A fluid exits the control volume of the Figure at a mass flow rate of 1.71 slugs/s with a speed of 10.8 ft/s at an angle of 35 degrees. Calculate, in lb, the x-axis contribution of the term SVp (v. )da C.S. at the plane where the velocity is. w L Control Volume H 90° .X Your Answer: Answer

  • A fluid enters the control volume of the Figure at a mass flow rate of 2.50...

    A fluid enters the control volume of the Figure at a mass flow rate of 2.50 slugs/s with a speed of 6.6 ft/s at an angle of 45 degrees. Calculate, in lb, the y-axis contribution of the term I vp (v.ü)da at the plane where the velocity is. w 4 90° Control Volume H X L

  • Figure P4.64 shows a fixed control volume. It has a volume VO = 1.0 ft3, a...

    Figure P4.64 shows a fixed control volume. It has a volume VO = 1.0 ft3, a flow area A = 1.0 ft2, and a length 40 = 1.0 ft. Position x represents the center of the control volume where the fluid velocity VO = 1.0 ft/s and the density po = 1.800 slug/ft3. Also, at position x the fluid density does not change locally with time but decreases in the axial direction at the linear rate of 0.25 slug/ft4. Use...

  • ​PLEASE DON'T DO THE PROBLEM, JUST ANSWER THESE QUESTIONS----> What is the control volume of this...

    ​PLEASE DON'T DO THE PROBLEM, JUST ANSWER THESE QUESTIONS----> What is the control volume of this diagram (draw it please) and where are point 1 & 2 located on the diagram? Why does p1=p2, v1=v2=0, and z1=z2? PLEASE ANSWER THESE QUESTIONS, DON'T DO THE PROBLEM: What is the control volume of this diagram (draw it please) and where are point 1 & 2 located on the diagram? Why does p1=p2, v1=v2=0, and z1=z2? 8.93 L exit.0 L elbow1.5 8.93 Water...

  • Sam is trying to move a dresser of mass m and dimensions of length L and height H by pushing it with a horizontal force...

    Sam is trying to move a dresser of mass m and dimensions of length L and height H by pushing it with a horizontal force F⃗ applied at a height h above the floor. (Figure 1) The coefficient of kinetic friction between the dresser and the floor is μk and g is the magnitude of the acceleration due to gravity. The ground exerts upward normal forces of magnitudes NP and NQ at the two ends of the dresser. Note that...

  • Chapters Six & Seven Problems: 6.11 The venture meter shown in Figure 6.4 carries oil (sg-0.85)....

    Chapters Six & Seven Problems: 6.11 The venture meter shown in Figure 6.4 carries oil (sg-0.85). The specific gravity of the gage fluid in the manometer is 1.5. Calculate the volume flow rate of oil in m'/s. 7.1 The pump in Figure 7.1 provides head of 59.5 ft, and power of 13.5 hp to deliver water from the lower to the upper reservoir. Calculate; a. Volume flow rate in the suction and discharge pipe. b. Velocity of flow in suction...

  • QUESTION 5 A angular coil of wire H 24 c n by L-34 c and car yng a cu ent of 1.6 A İs one ted with the plane of its loop pe pendicular to a uniform 1.6 T magnetic field as shown in the figure. T...

    QUESTION 5 A angular coil of wire H 24 c n by L-34 c and car yng a cu ent of 1.6 A İs one ted with the plane of its loop pe pendicular to a uniform 1.6 T magnetic field as shown in the figure. The coil is then rotated through a 28° angle into the plane. Calculate the torque that the magnetic field exerts on the coil. Hint: In order to help visualize this three-dimensional problem, make a...

  • Assignment:-GCA-CH07A work-KE Theory Pg12 SCALE-UP Table: Station: A block of mass M is launched up a...

    Assignment:-GCA-CH07A work-KE Theory Pg12 SCALE-UP Table: Station: A block of mass M is launched up a rough plane that makes an angle θ with the horizontal by placing (not attached) it against a massless spring compressed by a distance d and releasing it from rest (see "Initial stage" in the figure at right). The block slides a distance L (>d) up the plane and comes off the plane with an unknown speed v (see "Final stage" in the figure at...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT