How is buoyancy used in the real world?

Answers

Answer 1

Answer:

-- Buoyancy is used to bring crude oil from Saudi Arabi to refineries in the US. The oil is loaded into tanks that are part of supertanker ships. Buoyancy is created by their ship-shape, so they float on water, and they can be dragged across the ocean on top of the water.

-- Buoyancy is used for a cheap thrill on the weekend. People drive out in the country and find a place where they can buy a ride under a hot-air balloon. The balloon is filled with hot air from a propane burner under its opening, and then it rises up off the ground because of its buoyancy in cool air.

-- Buoyancy is used cleverly by factories, to get rid of their gaseous and particulate wastes. The wastes are heated, and then blown into tall "smokestacks" connected to the factory. Then they rise because of the buoyancy created by hot stuff in cool air. When they leave the top of the smokestack, they keep rising for a while. Then, weather systems blow them away from the factory, over into other people's neighborhoods, where they finally sink to the ground in places where nobody knows where they came from.

-- Buoyancy is used in teapots, coffee makers, and lava lamps. A heat source is placed under the bottom of the container. Heat is conducted through the bottom of the container, and it heats the fluid that's in contact with the inside of the container on the bottom. The hot fluid rises to the top of the container, because of the buoyancy created by hot stuff surrounded by cool stuff. At the same time, cool stuff flows in to take its place at the bottom.

In pots and pans and tanks where buoyancy is used this way, the motion of the fluids up and down and around is called "convection".

Answer 2

Answer:

Answer:

to mack boats float

Explanation:

without it the boats will sink to the bottom

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Conclusion When there is a constant unbalanced force applied in the same direction as the motion, speed will ___________________ and acceleration will _____________________________. When there is an increasing unbalanced force applied in the same direction as the motion, speed will ___________________ and acceleration will ________________________. When there is a constant unbalanced force applied in the opposite direction as the motion, speed will ___________________ and acceleration will ________________________. When there is an increasing unbalanced force applied in the opposite direction as the motion, speed will ___________________ and acceleration will ________________________.

Answers

When an unbalanced force is applied in the same direction as the motion of an object, the object's speed will increase, while its acceleration will remain constant. In cases where the unbalanced force is consistently applied and aligned with the object's motion, its speed will progressively rise, resulting in an increasing acceleration. Conversely, when a constant unbalanced force acts in the opposite direction to the object's motion, the speed of the object will decrease, and its acceleration will remain constant. If the force opposing the motion becomes stronger over time, the object's speed will decrease even further, leading to an increasing negative acceleration.

The scenarios highlight the direct relationship between unbalanced forces, speed, and acceleration, demonstrating how different force applications influence the motion characteristics of an object.

1) Constant Unbalanced Force in the Same Direction:

Speed: Increase

Acceleration: Constant

2) Increasing Unbalanced Force in the Same Direction:

Speed: Increase

Acceleration: Increase

3) Constant Unbalanced Force in the Opposite Direction:

Speed: Decrease

Acceleration: Constant

4) Increasing Unbalanced Force in the Opposite Direction:

Speed: Decrease

Acceleration: Increase

Conclusion:

Same Direction, Constant Force: Speed increases, acceleration remains constant.

Same Direction, Increasing Force: Speed increases, acceleration increases.

Opposite Direction, Constant Force: Speed decreases, and acceleration remains constant.

Opposite Direction, Increasing Force: Speed decreases, acceleration increases.

To know more about the acceleration:

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Final answer:

The effects of unbalanced forces on speed and acceleration depend on whether the force is constant or increasing and whether it is applied in the same or opposite direction as the motion. A constant or increasing force in the same direction as the motion increases speed and acceleration, while in the opposite direction, it causes decrease or deceleration.

Explanation:

When there is a constant unbalanced force applied in the same direction as the motion, the speed will increase and acceleration will remain constant, since force and acceleration are directly proportional according to Newton's Second Law of Motion.

When there is an increasing unbalanced force applied in the same direction as the motion, both the speed and acceleration will increase, as increased force results in increased acceleration, leading to an increase in speed over time.

When there is a constant unbalanced force applied in the opposite direction as the motion, the speed will decrease and the acceleration will be negative, which represents a deceleration or slowing down of the object.

When there is an increasing unbalanced force applied in the opposite direction as the motion, the speed will decrease at an increasing rate and the acceleration will be increasingly negative, implying an increasing rate of deceleration.

Learn more about Physics of Motion here:

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Who is the president of kenya

Answers

Question:

Who is the president of Kenya?

Answer:

Uhuru Kenyatta

Answer:

Uhuru Muigai Kenyatta

Explanation:

He was born on 26 October 1961.

He is a Kenyan politician, businessman, and the fourth and current President of the Republic of Kenya.

Plateau period are times in life when

Answers

Good morning Brianiac

Plateau period are times in life when there is no downhill or downhill happened in your life.

It was my pleasured to help you :0

What is the weight, on Earth, of a book with a mass of 1.5 kg

Answers

Answer: 14.7 N

Explanation:

The weight of an object on Earth is given by

$W=mg$

where

m is the mass of the object

$g=9.81 m/s^2$ is the acceleration due to gravity on Earth's surface

In this problem, we have a book of mass m=1.5 kg, so its weight is given by

$W=mg=(1.5 kg)(9.81 m/s^2)=14.7 N$

The answer is
D) 14.7 N

Which is the correct standard notation for 9.3 x 10^59,300
93,000
930,000
9,300,00

Answers

Answer:

930,000

Explanation:

9.3 x 10^5

The power of 10 (5 in this question) gives the number of times the decimal point is to be moved to the right.

If there was a negative sign in front of the power, the number would have been an indication of how many times the decimal point is to be moved to the left.

Further to this

9.3 x 10^5 = 9.30000000 x 10^5

= 930000.000

= 930,000

The correct standard notation for 9.3x10^5 is 930,000.

Given the diamond shape of a baseball field in the speed of which baseballs or hit why is it harder for a hitter to hit a homerun to the center field then to the right or left field