Homework Answers
(A) Tension in A=36N
(B)in B , buoyancy force+Tension=weight.
Buoyancy force=36N-12N
Buoyancy force=24N
(3) reading=22+12=34N
(4)in C buoyancy force is =12N
(5)T+12=36
T=24
(6) reading in c is =22+24=46N
(7) buoyancy in D is 36N
(8) reading of scale in D 58N
In figure A, a ball with a weight of 32.0 N is supported by a string....
In figure A, a ball with a weight of 32.0 N is supported by a
string. The ball hangs over a beaker of fluid. The beaker sits on a
scale, which reads 18.0 N. In figure B, the ball is completely
submerged in the fluid, and the tension in the string is 10.0 N. In
figure C, the ball is exactly half submerged. In figure D, the
string has been cut, and the ball is resting at the bottom of...
A wooden ball with a weight of 16.0 N hangs from a string tied to a...
A wooden ball with a weight of 16.0 N hangs from a string tied to a spring scale. When the ball is at rest, exactly 50% submerged in water, the spring scale reads 6.00 N. For this problem, we will use a density of water of 1000 kg/m^3, and we will use g = 10.0 m/s^2. If the ball was only 20.0% submerged in water instead, what would the spring scale read? _______ N Part (b) HomeworkUnanswered A wooden ball...
A wooden ball with a weight of 24.0 N hangs from a string tied to a...
A wooden ball with a weight of 24.0 N hangs from a string tied to a spring scale. When the ball is at rest, exactly 50% submerged in water, the spring scale reads 3.00 N. For this problem, we will use a density of water of 1000 kg/m3, and we will use g = 10.0 m/s2. (b) Determine the density of the ball. (c) Determine the volume of the ball.
Please help me with these questions Question 3 - to - 5 EST 1) State Archimede's...
Please help me with these questions
Question 3 - to - 5
EST 1) State Archimede's principle. by mass ofme splacid fid 2) Use Archimedes' principle to prove the following: "When a body is floating on a liquid, it displaces a weight of liquid equal to its own weight." 3) How would you determine the density of an irregularly shaped rock? 4) Lead has a greater density than iron, and both are denser than water. Is the buoyant force on...
The solid steel ball shown in the figure is submerged between the interface of two liquids...
The solid steel ball shown in the figure is submerged between
the interface of two liquids with sg of 1.2 and 1.5. The ball has a
diameter of 215 mm and specific gravity of 7.4 and is attached by a
rope. Note: The interface of the two liquids coincides the center
of the sphere.
Determine the buoyant force acting on the ball in N.
Can I please get help on how to workout this problem? 9. You need to determine...
Can I please get help on how to workout this problem?
9. You need to determine the density of a ceramic statue. If you suspend it from a spring scale, the scale reads 39.8 N. You then lower the statue into a tub of water, so that it is completely submerged, and the scale reads 11.4 N. a) What is the buoyant force acting on the statue? b) What is the volume of the statue? c) What is the density...
A 18.5 kg block of metal measuring 12.0 cm by 10.0 cm by 10.0 cm is...
A 18.5 kg block of metal measuring 12.0 cm by 10.0 cm by 10.0 cm
is suspended from a scale and immersed in water as shown in the
figure below. The 12.0 cm dimension is vertical, and the top of the
block is 4.55 cm below the surface of the water.
Figure (a) shows a vertical spring scale. The top of the scale
has a hook attached to the ceiling. The bottom of the scale has a
hook attached to...
Please do all of number 4 show detailed work It 4. The weight of a rectangular...
Please do all of number 4
show detailed work
It 4. The weight of a rectangular block of low-density material is 15.0 N. With a thin string, the center of the horizontal bottom face of the block is tied to the bottom of a beaker partly filled with wa (pwaw" 1000 kg/m3 10.0 N. when 25.0% of the block's volume is submerged, the tension in the string is ater a) Find the buoyant force on the block. b) Oil of...
When checking the weight of the solid used in the laboratory experiment by suspending the solid...
When checking the weight of the solid used in the laboratory experiment by suspending the solid from the spring scale in air per the specifications in Part 1 of the Procedure section of the laboratory assignment, the tension the spring scale registers for the solid is not exactly equal to the magnitude of the weight of the solid. This is due to the buoyant force of the air acting on the solid. The density of air is 1.204kg/m3 at 20°C...
4. When a solid object is suspended from a spring scale in air the scale reads...
4. When a solid object is suspended from a spring scale in air the scale reads 21.7N. The object is then completely submerged in water and the spring scale reads 16.6N. Draw a free-body diagram for the object suspended from the scale in air. You may ignore the very small buoyant force from the air. Using a Newton's 2 nd law equation for the vertical direction on your FBD determine the mass of the object. Draw a free-body diagram for...
In figure A, a ball with a weight of 32.0 N is supported by a
string. The ball hangs over a beaker of fluid. The beaker sits on a
scale, which reads 18.0 N. In figure B, the ball is completely
submerged in the fluid, and the tension in the string is 10.0 N. In
figure C, the ball is exactly half submerged. In figure D, the
string has been cut, and the ball is resting at the bottom of...
Please help me with these questions
Question 3 - to - 5
EST 1) State Archimede's principle. by mass ofme splacid fid 2) Use Archimedes' principle to prove the following: "When a body is floating on a liquid, it displaces a weight of liquid equal to its own weight." 3) How would you determine the density of an irregularly shaped rock? 4) Lead has a greater density than iron, and both are denser than water. Is the buoyant force on...
The solid steel ball shown in the figure is submerged between
the interface of two liquids with sg of 1.2 and 1.5. The ball has a
diameter of 215 mm and specific gravity of 7.4 and is attached by a
rope. Note: The interface of the two liquids coincides the center
of the sphere.
Determine the buoyant force acting on the ball in N.
Can I please get help on how to workout this problem?
9. You need to determine the density of a ceramic statue. If you suspend it from a spring scale, the scale reads 39.8 N. You then lower the statue into a tub of water, so that it is completely submerged, and the scale reads 11.4 N. a) What is the buoyant force acting on the statue? b) What is the volume of the statue? c) What is the density...
A 18.5 kg block of metal measuring 12.0 cm by 10.0 cm by 10.0 cm
is suspended from a scale and immersed in water as shown in the
figure below. The 12.0 cm dimension is vertical, and the top of the
block is 4.55 cm below the surface of the water.
Figure (a) shows a vertical spring scale. The top of the scale
has a hook attached to the ceiling. The bottom of the scale has a
hook attached to...
Please do all of number 4
show detailed work
It 4. The weight of a rectangular block of low-density material is 15.0 N. With a thin string, the center of the horizontal bottom face of the block is tied to the bottom of a beaker partly filled with wa (pwaw" 1000 kg/m3 10.0 N. when 25.0% of the block's volume is submerged, the tension in the string is ater a) Find the buoyant force on the block. b) Oil of...
When checking the weight of the solid used in the laboratory experiment by suspending the solid from the spring scale in air per the specifications in Part 1 of the Procedure section of the laboratory assignment, the tension the spring scale registers for the solid is not exactly equal to the magnitude of the weight of the solid. This is due to the buoyant force of the air acting on the solid. The density of air is 1.204kg/m3 at 20°C...
4. When a solid object is suspended from a spring scale in air the scale reads 21.7N. The object is then completely submerged in water and the spring scale reads 16.6N. Draw a free-body diagram for the object suspended from the scale in air. You may ignore the very small buoyant force from the air. Using a Newton's 2 nd law equation for the vertical direction on your FBD determine the mass of the object. Draw a free-body diagram for...
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