A cube of ice is taken from the freezer at -5 ∘C
and placed in a 95-g
aluminum calorimeter filled with 330 g
of water at room temperature of 20. 0 ∘C. The final situation is observed to be all water at 15. 0 ∘C. The specific heat of ice is 2100 J/kg⋅C∘
, the specific heat of aluminum is 900 J/kg⋅C∘
, the specific heat of water is is 4186 J/kg⋅C∘
, the heat of fusion of water is 333 kJ/Kg

Answers

Answer 1

The ice absorbs 31,567.1 J of heat and melts and warms up to 15.0 °C. The aluminum calorimeter and water lose 6,246.3 J of heat and cool down to 15.0 °C. The amount of heat transferred from the water to the ice is 25,320.8 J.

First, we need to determine how much heat is absorbed by the ice in order to melt and then warm up to 15.0 °C. The heat absorbed can be calculated using:

Q = m_ice * L_fusion + m_ice * c_ice * (T_f - T_ice) + m_ice * c_water * (T_f - T_w)

where:

m_ice = mass of ice

L_fusion = heat of fusion of water

c_ice = specific heat of ice

T_f = final temperature (15.0 °C)

T_ice = initial temperature (-5.0 °C)

T_w = temperature of water (20.0 °C)

c_water = specific heat of water

Substituting the values given:

Q = (95/1000) * 333000 + (95/1000) * 2100 * (15.0 + 5.0) + (95/1000) * 4186 * (15.0 - 20.0)

Q = 31567.1 J

Next, we need to determine how much heat is lost by the aluminum calorimeter and the water in order to cool down to 15.0 °C. The heat lost can be calculated using:

Q = (m_aluminum * c_aluminum + m_water * c_water) * (T_w - T_f)

where:

m_aluminum = mass of aluminum calorimeter

c_aluminum = specific heat of aluminum

m_water = mass of water

c_water = specific heat of water

T_w = initial temperature (20.0 °C)

T_f = final temperature (15.0 °C)

Substituting the values given:

Q = (0.095 * 900 + 0.330 * 4186) * (20.0 - 15.0)

Q = 6246.3 J

Since energy is conserved, the heat lost by the aluminum calorimeter and water is equal to the heat gained by the ice:

Q_lost = Q_gained

6246.3 J = 31567.1 J + F

where F is the amount of heat transferred from the water to the ice.

Solving for F:

F = -25320.8 J

The negative sign indicates that heat is transferred from the ice to the water.

Therefore, the ice absorbs 31,567.1 J of heat, and it melts and warms up to 15.0 °C. The aluminum calorimeter and water lose 6,246.3 J of heat and cool down to 15.0 °C. The amount of heat transferred from the water to the ice is 25,320.8 J.

Learn more about ice ,

https://brainly.com/question/31226876

#SPJ4


Related Questions

an experiment is run in which the magnitude of the electric field e and magnetic field b in a laboratory device are measured as functions of time t. which conclusion below is best supported by the data above?responsesthe device is having trouble measuring the electric and magnetic fields as both fields are not present in the device at all of times indicated.the device is having trouble measuring the electric and magnetic fields as both fields are not present in the device at all of times indicated.the electric field will always be zero when the magnetic field is 4.0t.the electric field will always be zero when the magnetic field is 4.0 teslas .the magnetic field will produce an electric flux inside the device, which will in turn produce an electric field.the magnetic field will produce an electric flux inside the device, which will in turn produce an electric field.a changing magnetic field can induce an electric field.a changing magnetic field can induce an electric field.a changing electric field can induce a magnetic field.

Answers

Changing magnetic field can induce an electric field.

The strength of the electric field at any given location is inversely proportional to the pace at which the magnetic field is changing there.

The opposite is also true: the electric field's rate of change is inversely correlated with the strength of the magnetic field.

According to Faraday's Law, a current whose magnitude depends on the rate of change of the magnetic field will flow when the strength of a magnetic field changes within a loop of wire.

To learn more about electric field, click:

https://brainly.com/question/8971780

#SPJ1

therefore _____ also is the same before ad after a physical change

Answers

The physical changes do not alter the chemical composition of a substance, and therefore, any physical property of the material will remain the same before and after the change.

The term "therefore" suggests that the statement to follow is a conclusion drawn from previous information. Based on this, I will assume that the previous information relates to the nature of matter and physical changes.

In the context of matter, physical changes are those that do not alter the chemical composition of a substance. Examples include changes in state, such as melting or evaporating, or changes in shape or size, such as cutting or crushing.

During physical changes, the composition of the material remains the same, only the arrangement of the particles and their energy levels change. Therefore, any physical property of the substance, such as its density, mass, or volume, will remain the same before and after the change.

For example, if a piece of ice is melted, the resulting liquid will have the same mass and volume as the original ice. The physical change only altered the arrangement of water molecules, not their chemical makeup.

For more such questions on physical

https://brainly.com/question/1978861

#SJP11

radio telescopes would not represent a good choice for astronomical study of ________.

Answers

Radio telescopes would not represent a good choice for astronomical study of visible light.

This is because radio telescopes are designed to detect and study radio waves, which have longer wavelengths than visible light. While they can provide valuable insights into phenomena such as pulsars and quasars, they would not be able to capture the detailed images of stars and galaxies that can be obtained with optical telescopes.

Additionally, radio telescopes are typically more expensive and complex than optical telescopes, making them less accessible for amateur astronomers.

Therefore, for studying visible light and capturing high-resolution images of celestial objects, optical telescopes would be a better choice.

To know more about telescopes visit:

https://brainly.com/question/556195

#SPJ11

how long will it take the sun's planetary nebula, expanding at a speed of 20 km/s, to reach the orbit of neptune? how long to reach the nearest star?

Answers

At a speed of 20 km/s, it would take the Sun's planetary nebula approximately 7.14 years to reach Neptune's orbit and about 63,442 years to reach the nearest star, Proxima Centauri.

To answer the question, we first need to determine the distances involved. The average distance from the Sun to Neptune is about 4.5 billion kilometers (30.1 astronomical units). The nearest star to the Sun is Proxima Centauri, which is approximately 4.24 light-years away, or about 40 trillion kilometers.

To reach Neptune's orbit, we can use the formula time = distance/speed:
Time = (4.5 billion km) / (20 km/s) ≈ 225 million seconds
Converting to years: 225 million seconds / (60 s/min * 60 min/h * 24 h/day * 365.25 days/year) ≈ 7.14 years

To reach Proxima Centauri:
Time = (40 trillion km) / (20 km/s) ≈ 2 trillion seconds
Converting to years: 2 trillion seconds / (60 s/min * 60 min/h * 24 h/day * 365.25 days/year) ≈ 63,442 years

So, it would take the Sun's planetary nebula approximately 7.14 years to reach Neptune's orbit and about 63,442 years to reach the nearest star, Proxima Centauri, at a speed of 20 km/s.

More on nebula and Neptune: https://brainly.com/question/29242780

#SPJ11

an lc circuit consists of a 3.00 mh inductor and a 5.00 µf capacitor. (a) find its impedance (in ω) at 60.0 hz. ω (b)find its impedance (in ω) at 10.0 khz.

Answers

(a) The impedance of the LC circuit at 60.0 Hz is 4.03×10³ Ω.

(b) The impedance of the LC circuit at 10.0 kHz is 1.02×10³ Ω.

The impedance (Z) of an LC circuit can be calculated using the formula Z = √(R² + (XL - XC)²), where R is the resistance, XL is the inductive reactance, and XC is the capacitive reactance. In an ideal LC circuit, the resistance is zero, so the impedance is simply given by Z = √((XL - XC)²).

The inductive reactance can be calculated as XL = ωL, where ω is the angular frequency and L is the inductance. The capacitive reactance can be calculated as XC = 1/(ωC), where C is the capacitance.

For part (a), substituting the given values into the formula gives

XL - XC = 3010 Ω, so Z = √((3010)²) = 4.03×10³ Ω.

For part (b), substituting the given values and using ω = 2πf gives

XL - XC = 2.53×10⁴ Ω, so

Z = √((2.53×10⁴)²) = 1.02×10³ Ω.

To learn more about LC Circuit, here

https://brainly.com/question/27066532

#SPJ4

(a) The impedance of the LC circuit at 60.0 Hz is 4.03×10³ Ω.

(b) The impedance of the LC circuit at 10.0 kHz is 1.02×10³ Ω.

What is Circuit?

A circuit is a closed path or loop through which electric current can flow. It is composed of various components such as resistors, capacitors, inductors, and power sources such as batteries or generators, connected together by conductive wires or traces on a printed circuit board (PCB).

The impedance of an LC circuit can be calculated using the formula:

The impedance (Z) of an LC circuit can be calculated using the formula Z = √(R² + (XL - XC)²), where R is the resistance, XL is the inductive reactance, and XC is the capacitive reactance. In an ideal LC circuit, the resistance is zero, so the impedance is simply given by Z = √((XL - XC)²).

The inductive reactance can be calculated as XL = ωL, where ω is the angular frequency and L is the inductance. The capacitive reactance can be calculated as XC = 1/(ωC), where C is the capacitance.

For part (a), substituting the given values into the formula gives

XL - XC = 3010 Ω, so

Z = √((3010)²)

= 4.03×10³ Ω.

For part (b), substituting the given values and using ω = 2πf gives

XL - XC = 2.53×10⁴ Ω, so

Z = √((2.53×10⁴)²)

= 1.02×10³ Ω.

To learn more about LC Circuit, here

brainly.com/question/27066532

#SPJ4

a larger force over a shorter time interval is preferable to a smaller force over a larger time interval?

Answers

In some cases, a larger force over a shorter time interval may be preferable to a smaller force over a larger time interval.

This is because the total amount of work done is the same regardless of the force or time interval used, but the way the force is applied can affect other factors such as efficiency and safety. For example, if you need to move a heavy object quickly, applying a larger force over a shorter time interval may be more efficient and effective than applying a smaller force over a longer time interval. However, if safety is a concern, it may be better to apply a smaller force over a longer time interval to reduce the risk of injury or damage. Ultimately, the choice of force and time interval depends on the specific situation and the desired outcome.

A larger force applied over a shorter time interval can produce the same impulse as a smaller force applied over a longer time interval. This can be beneficial in certain situations, such as reducing the impact of a collision or accelerating an object more quickly.

To know more about force visit:

https://brainly.com/question/30507236

#SPJ11

explain why the friction on the wheel points up the incline even tho this is not the direction opposite the wheells translational motuin

Answers

The friction on a wheel rolling up an incline points up the incline because it acts in the opposite direction to the relative motion between the wheel and the incline. The frictional force prevents the wheel from slipping or sliding down the incline.

The friction on the wheel points up the incline because it acts in the direction opposite to the relative motion between the wheel and the incline. When a wheel rolls up an incline, the point of contact between the wheel and the incline is momentarily at rest, and the direction of motion of the wheel is tangent to the point of contact. The frictional force acts in the opposite direction to the motion of the wheel relative to the incline, which is up the incline, to prevent the wheel from slipping or sliding down the incline.

Therefore , the direction of friction is not necessarily opposite to the wheel's translational motion, but rather opposite to the relative motion between the wheel and the incline.

Visit to know more about Friction:-

brainly.com/question/24338873

#SPJ11

Using the completed chart from problem 1. on june 22 at which latitude the equator or 45n is the noon sun highest in the sky

Answers

On June 22, the summer solstice in the northern hemisphere, the noon sun is highest in the sky at the latitude of the Tropic of Cancer, which is located at approximately 23.5 degrees north. This means that at latitudes higher than 23.5 degrees north, the sun will not be directly overhead at noon.

Therefore, at a latitude of 45 degrees north, which is well above the Tropic of Cancer, the sun will not be highest in the sky at noon on June 22. Instead, the sun will be at a lower angle in the sky, casting longer shadows and providing less direct sunlight.

The equator, which is located at 0 degrees latitude, experiences relatively consistent amounts of daylight and darkness throughout the year, with the sun appearing to move almost directly overhead at noon on most days. However, on June 22, the sun will not be at its highest point in the sky at noon at the equator either.

Overall, the amount of direct sunlight and the angle at which the sun appears in the sky varies depending on the latitude and time of year. Understanding these patterns can help us to better understand and predict climate and weather patterns in different parts of the world.

To know more about latitude click here:

https://brainly.com/question/1383547

#SPJ11

what is solar thermal energy used to do?responses heat homes and power homesheat homes and power homesheat and power homes and heat waterheat and power homes and heat waterheat homes and waterheat homes and waterheat homes

Answers

Solar thermal energy is primarily used to heat homes and water, as well as to power homes. This type of renewable energy works by capturing the sun's rays and converting them into heat energy, which can be used for a variety of purposes.

It typically involves the use of solar panels or collectors that are installed on a roof or other area where they can receive direct sunlight. These panels contain a special fluid or gas that absorbs the sun's energy and heats up as a result. This heat energy can then be used to heat water, which can be used for domestic purposes such as bathing, washing clothes, and cooking.

In addition to heating water, solar thermal energy can also be used to heat homes and power homes. This is typically done through the use of a solar thermal system that includes a heat exchanger, which transfers the heat from the solar panels to the home's heating or cooling system. This can help to reduce energy costs and make homes more environmentally friendly.

Overall, solar thermal energy is a versatile and renewable source of energy that can be used in a variety of ways to help reduce our dependence on fossil fuels and reduce our carbon footprint.

Solar thermal energy systems collect and convert sunlight into heat, which can be used for various purposes. These systems typically use solar collectors to capture the sun's energy, and a heat transfer fluid to distribute the heat throughout a building or to heat water.

1. Solar collectors capture sunlight and convert it into heat.
2. Heat transfer fluid absorbs the heat and transports it to a heat exchanger.
3. The heat exchanger transfers the heat to water or air, which can be used for space heating, domestic hot water, or even heating a swimming pool.
4. In some cases, solar thermal energy can also be used to generate electricity by powering a turbine or an engine. This is called a solar thermal power plant.

In summary, solar thermal energy is a versatile and sustainable solution for heating homes and water, as well as generating electricity in certain situations.

To know more about  heat exchanger  refer to

https://brainly.com/question/22595817

#SPJ11

hich strategy for communicating to public audiences breaks a whole into constituent parts? thus, division, not classification, is the primary strategy used to unpack a concept. it can be useful to discuss the structure of a molecule or the stages of a supernova.

Answers

The strategy that breaks a whole into constituent parts is called "analytical" communication. In this approach, the speaker or writer dissects the subject matter into smaller components and explains each part in detail.

Analytical communication is commonly used in technical writing, scientific reports, and academic papers. The purpose is to help the audience understand complex ideas by breaking them down into simpler concepts. For example, when discussing the structure of a molecule, the analyst would describe the individual atoms and how they bond together. Similarly, when explaining the stages of a supernova, the speaker would discuss each phase and the events that occur during that stage.
In contrast, classification communication groups information based on similarities and differences. This approach is used to categorize information and identify patterns. For example, a biologist may classify different species based on their characteristics.
In summary, analytical communication is the primary strategy used to break down complex concepts into smaller components, while classification communication groups information based on similarities and differences.

Learn more about communication here:

https://brainly.com/question/22558440

#SPJ11

based on the observational evidence, is it possible that dark matter doesn't really exist? based on the observational evidence, is it possible that dark matter doesn't really exist? no, the evidence for it is too strong to think it could be in error. yes, but only if there is something wrong with our current understanding of how gravity should work on large scales. yes, but only if all the observations themselves are in error.

Answers

No, the evidence for dark matter is too strong to think it could be in error.

While there is still much to learn about this mysterious substance, its existence has been supported by multiple independent lines of observational evidence, including the dynamics of galaxies and galaxy clusters, the cosmic microwave background radiation, and gravitational lensing. While it's possible that our current understanding of gravity may need to be refined, it's highly unlikely that all of the evidence for dark matter is the result of errors or biases in our observations. Therefore, while it is possible that there could be something wrong with our current understanding of how gravity should work on large scales, and that dark matter may not exist, the evidence for it is too strong to think it could be in error.

To learn more about dark matter click here https://brainly.com/question/29480686

#SPJ11

A child hits an ice cube with a mass of 10 grams on a table with a force of 10 N. The impact lasts 0.02 seconds. The ice cube flies off the table, which is 1 meter high and lands some distance away. Assume there is no friction between the ice cube and the table. a. What is the velocity of the ice cube when it leaves the table? b. What is the final velocity of the ice cube just before it hits the floor? c. What is the momentum of the ice cube just before it hits the floor? d. What distance will the ice cube land from the foot of the table? e. Suppose the ice cube had broken into two pieces just after the child hit the ice and moved away from each other while falling to the floor. How would the total momentum of the two pieces just before they hit the floor compare to the momentum you found in part (c)?

Answers

The velocity of the ice cube when it leaves the table is 2 m/s. The final velocity of the ice cube just before it hits the floor is 4.43 m/s. The momentum of the ice cube just before it hits the floor is 0.04 kg*m/s.The ice cube will land 1.02 meters from the foot of the table.

We can use the formula for impulse to find the velocity of the ice cube when it leaves the table. Impulse is equal to force multiplied by time, which is also equal to the change in momentum of the ice cube. Since the ice cube starts from rest, its initial momentum is zero. Therefore, impulse is equal to the final momentum of the ice cube, which is mass multiplied by velocity. Solving for velocity, we get a velocity of 2 m/s.

We can use the kinematic equation v^2 = u^2 + 2as to find the final velocity of the ice cube just before it hits the floor. The initial velocity of the ice cube is 2 m/s (from part a). We know that the acceleration due to gravity is -9.8 m/s^2 and the displacement of the ice cube is 1 meter. Solving for the final velocity, we get a final velocity of 4.43 m/s.

The momentum of an object is equal to its mass multiplied by its velocity. Since the mass of the ice cube is 10 grams (or 0.01 kg) and the velocity is 4.43 m/s (from part b), the momentum of the ice cube just before it hits the floor is 0.04 kg*m/s.

We can use the kinematic equation s = ut + 1/2at^2 to find the distance the ice cube will travel horizontally before hitting the floor. Since there is no horizontal force acting on the ice cube, its initial horizontal velocity is equal to its final horizontal velocity, which is 2 m/s (from part a). We know that the time of flight of the ice cube is equal to the time of impact, which is 0.02 seconds. Solving for the horizontal displacement, we get a distance of 1.02 meters.

According to the law of conservation of momentum, the total momentum of a system before a collision is equal to the total momentum of the system after the collision, provided there are no external forces acting on the system. Therefore, if the ice cube broke into two pieces just after the child hit the ice and moved away from each other while falling to the floor, the total momentum of the two pieces just before they hit the floor would be equal to the momentum found in part (c), which is 0.04 kg*m/s.

Know more about velocity here:

https://brainly.com/question/17127206

#SPJ11

Un trineo de 20 kg descansa en la cima de una pendiente de 80 m de longitud y 30° de inclinación. Si µ = 0. 2, ¿cuál es la velocidad al pie del plano inclinado?

Answers

The velocity of the sled at the bottom of the incline is 28 m/s.

To determine the velocity of the sled at the bottom of the incline, we need to use conservation of energy principles. At the top of the incline, the sled has gravitational potential energy due to its height above the ground. As the sled slides down the incline, this potential energy is converted to kinetic energy.

The first step is to calculate the gravitational potential energy of the sled at the top of the incline. We can use the formula E = mgh, where E is the potential energy, m is the mass of the sled, g is the acceleration due to gravity ([tex]9.8 m/s^2[/tex]), and h is the height of the sled above the ground. The height h can be calculated using trigonometry, as h = 80 sin(30°) = 40 m. Therefore, the potential energy of the sled is E = (20 kg)([tex]9.8 m/s^2[/tex])(40 m) = 7840 J.

Next, we need to determine the work done by friction as the sled slides down the incline. The force of friction is given by f = µN, where µ is the coefficient of friction and N is the normal force. The normal force is equal to the component of the weight of the sled that is perpendicular to the incline, which can be calculated as N = mg cos(30°) = (20 kg)([tex]9.8 m/s^2[/tex]) cos(30°) = 166.4 N. Therefore, the force of friction is f = (0.2)(166.4 N) = 33.28 N.

The work done by friction is equal to the force of friction multiplied by the distance over which it acts, which is 80 m. Therefore, the work done by friction is W = f d = (33.28 N)(80 m) = 2662.4 J.

The final step is to use conservation of energy to relate the initial potential energy of the sled to its final kinetic energy at the bottom of the incline. According to the principle of conservation of energy, the total energy of the system must remain constant. Therefore, we can write:

Ei = Ef

[tex]$mgh = \frac{1}{2}mv^2 + W$[/tex]

where Ei is the initial energy (potential energy), Ef is the final energy (kinetic energy plus work done by friction), and v is the velocity of the sled at the bottom of the incline.

Substituting in the values we have calculated, we get:

[tex]$(20 \textrm{ kg})(9.8 \textrm{ m/s}^2)(40 \textrm{ m}) = \frac{1}{2}(20 \textrm{ kg})v^2 + (33.28 \textrm{ N})(80 \textrm{ m})$[/tex]

Simplifying and solving for v, we get:

[tex]$v = \sqrt{2gh - 2\mu gd}$[/tex]

[tex]$v = \sqrt{2(9.8 \textrm{ m/s}^2)(40 \textrm{ m}) - 2(0.2)(9.8 \textrm{ m/s}^2)(80 \textrm{ m})}$[/tex]

[tex]$v = \sqrt{784}$[/tex]

v = 28 m/s

To learn more about velocity

https://brainly.com/question/30559316

#SPJ4

Complete question:

A 20 kg sled rests at the top of an incline 80 m long and 30° inclination. If µ = 0.2, what is the velocity at the bottom of the incline?

why was the discovery of pulsars initially misinterpreted as evidence of intelligent life elsewhere in the universe?

Answers

The discovery of pulsars was initially misinterpreted as evidence of intelligent life elsewhere in the universe because their signals were highly regular and unlike any known natural celestial phenomena at the time. The Explanation for this misinterpretation is that astronomers were unfamiliar with pulsars and their properties when they were first discovered.

Here's a step-by-step explanation of the situation:

1. Pulsars were first detected in 1967 by Jocelyn Bell Burnell and Antony Hewish.
2. The signals they observed were very regular and repeating, leading them to believe they might be coming from an artificial source.
3. Due to the lack of knowledge about pulsars and their properties, the initial interpretation of these signals was that they might be evidence of intelligent life communicating from elsewhere in the universe. This hypothesis was even nicknamed "LGM" (Little Green Men) in jest.
4. Further research and observation led astronomers to understand that these signals were actually coming from rapidly rotating neutron stars, which are natural celestial objects.
5. As our understanding of pulsars grew, it became clear that they were not evidence of intelligent life but rather a fascinating new type of celestial object.

In conclusion, the discovery of pulsars was initially misinterpreted as evidence of intelligent life elsewhere in the universe because their highly regular signals were unfamiliar and unlike any known natural phenomena at the time. However, as our understanding of pulsars expanded, this misinterpretation was corrected.

To know more about celestial visit :-

https://brainly.com/question/14165378

#SPJ11

A. What is the magnitude of a point charge in coulombs whose electric field 66 cm away has the magnitude 1.9 N/C?

B. What is the magnitude of a point charge that would create an electric field of 1.34 N/C at points 0.909 m away?

Answers

The magnitude of the point charge is 2.2 nano coulombs. The magnitude of the point charge is 12 pico coulombs.

A. To find the magnitude of the point charge, we can use the formula for the electric field created by a point charge:

E = k*q/r²

Rearranging the formula, we get:

q = E*r²/k

Substituting the given values, we get:

q = (1.9 N/C) * (0.66 m)² / (9.0 x [tex]10^9[/tex] N m²/C²)

q = 2.2 x [tex]10^{-9[/tex] C

B. Using the same formula as before, we can find the magnitude of the point charge:

q = E*r²/k

Substituting the given values, we get:

q = (1.34 N/C) * (0.909 m)² / (9.0 x [tex]10^9[/tex] N m²/C²)

q = 1.2 x [tex]10^{-8[/tex] C

Magnitude refers to the size or extent of something, usually measured on a numerical scale. It is a term commonly used in science, mathematics, and engineering, but it can also be used in everyday language to describe the importance or impact of something. In mathematics, magnitude is often used to describe the distance between two points or the size of a vector in a certain direction.

In physics, it can refer to the strength or intensity of a force, such as the magnitude of an earthquake or the magnitude of an electric field. In everyday language, magnitude can be used to describe the significance or impact of something, such as the magnitude of a problem or the magnitude of a success. It can also refer to the scale of something, such as the magnitude of a project or the magnitude of a budget.

To learn more about Magnitude visit here:

brainly.com/question/14452091

#SPJ4

a block is on a frictionless table, on earth. the block accelerates at 2.40 m/s2 when a 18.5 n horizontal force is applied to it. the block and table are set up on the moon. the acceleration due to gravity at the surface of the moon is 1.62 m/s2. what is the weight of the block on the moon?

Answers

The weight of the block on the moon is calculated as 12.47 N.

To find the weight of the block on the moon, we need to first determine its mass. We can do this using the formula F = ma, where F is the force applied, m is the mass of the block, and a is the acceleration.

Given, on the Earth, block accelerates at 2.40 m/s2 when 18.5 N horizontal force is applied. So,

18.5 N = m x 2.40 m/s2

Solving for m, we get:

m = 7.71 kg

Now that we know the mass of the block, we can use the formula for weight:

On the moon, as the acceleration due to gravity is 1.62 m/s2, so

So, weight = 7.71 kg x 1.62 m/s2

Weight = 12.47 N

Therefore, the weight of the block on the moon is 12.47 N.

To know more about weight, refer

https://brainly.com/question/86444

#SPJ11

The voltage across a 72 μH inductor is described by the equation vL =(25 V) cos(60t), where t is in seconds.

Part A

What is the voltage across the inductor at t =0.10 s?

Express your answer to two significant figures and include the appropriate units.

V=___V

Part B

What is the inductive reactance?

Express your answer to two significant figures and include the appropriate units.

XL=__ omega

Part C

What is the peak current?

Express your answer to two significant figures and include the appropriate units.

I=___A

Answers

the peak current is 919.1 A. Peak current is the max current during one cycle, determined by voltage and inductive reactance.

Part A:
To find the voltage across the inductor at t=0.10s, we need to substitute t=0.10s into the given equation:
vL = (25 V) cos(60t)
vL = (25 V) cos(60 x 0.10)
vL = (25 V) cos(6)
vL = -12.5 V
Therefore, the voltage across the inductor at t=0.10s is -12.5 V.

Part B:
The inductive reactance, XL, is given by the equation:
XL = 2πfL
where f is the frequency and L is the inductance. In this case, the inductance is 72 μH (microhenries) and the frequency is 60 Hz (given by the cosine function).
XL = 2π x 60 x 72 x 10^-6
XL = 0.0272 Ω
Therefore, the inductive reactance is 0.0272 Ω.

Part C:
The peak current, I, can be found using the formula:
I = Vpeak / XL

where Vpeak is the peak voltage, which is equal to the maximum voltage of the cosine function, which is 25 V.
I = 25 V / 0.0272 Ω
I = 919.1 A
Therefore, the peak current is 919.1 A.

To know more about Peak current visit:

https://brainly.com/question/31857951

#SPJ11

a hollow cylindrical conductor of inner radius 0.0074 m and outer radius 0.0208 m carries a uniform current of 6.30 a. what is the magnitude of the magnetic field at radius of 0.0195 m?

Answers

To calculate the magnetic field at a radius of 0.0195 m, we can use the formula:

B = μ₀I/2πr

where B is the magnetic field, μ₀ is the permeability of free space, I is current, and r is the distance from the center of the cylindrical conductor.

Since the conductor is hollow, we only need to consider the current flowing on the surface of the conductor, which is equivalent to a cylindrical shell. The inner radius of the shell is 0.0074 m, the outer radius is 0.0208 m, and the current is 6.30 A. So:

B = μ₀I/2πr = (4π×10⁻⁷ T·m/A)×(6.30 A)/(2π×0.0195 m)

B = 2.00×10⁻⁵ T

Therefore, the magnitude of the magnetic field at a radius of 0.0195 m is 2.00×10⁻⁵ T.To find the magnitude of the magnetic field at a radius of 0.0195 m for the given hollow cylindrical conductor, you can use Ampere's Law. Here's a step-by-step explanation:

1. Identify the parameters:
- Inner radius (a) = 0.0074 m
- Outer radius (b) = 0.0208 m
- Uniform current (I) = 6.30 A
- Point of interest's radius (r) = 0.0195 m

2. Apply Ampere's Law in cylindrical coordinates:
For a hollow cylindrical conductor with a radial distance between a and b, Ampere's Law states that the magnetic field (B) at a radial distance (r) can be calculated using the formula:

B * 2πr = μ₀ * I_enclosed

where μ₀ is the permeability of free space (μ₀ = 4π x 10^(-7) Tm/A) and I_enclosed is the enclosed current within the radius r.

3. Determine the enclosed current (I_enclosed):
Since r lies between the inner and outer radius (a < r < b), the enclosed current will be the same as the total current:

I_enclosed = I = 6.30 A

4. Calculate the magnetic field (B) at radius r:
Now, solve for B using the formula derived from Ampere's Law:

B = (μ₀ * I_enclosed) / (2πr)
B = (4π x 10^(-7) Tm/A * 6.30 A) / (2π * 0.0195 m)
B ≈ 0.000032 T

The magnitude of the magnetic field at a radius of 0.0195 m is approximately 0.000032 T (Tesla).

Learn more about Ampere's Law here:-  brainly.com/question/27415579

#SPJ11

why the force to overcome friction may increase when trying to move an object.
(forces grade 8)

Answers

A force known as friction prevents movement between two surfaces that are in touch. A static frictional force acts on an object when it is at rest on a surface and stops it from moving. An external force that is stronger than the static frictional force.

However, the frictional force switches from static to kinetic as soon as the item begins to move. Although it can do so when moving quickly or under a lot of stress, the coefficient of kinetic friction is typically lower than the coefficient of static friction. This implies that the amount of force needed to overcome friction may rise when the object moves faster or is subjected to more force.

To know more about static frictional , here

brainly.com/question/17237604

#SPJ1

A device carries a steady current of 8.0 A when connected to a 120 V battery. The device and battery are connected by 2.0 m of copper wire with a diameter of 0.32 mm. The following are properties of copper. Resistivity: 1.7 x 102 m Mass density: 8,940 kg/m® Temperature coefficient of resistivity: 3.9 x 10" ("C)' Molecular mass: 1.06 x 10 kg 12. If the device runs for 8.0 hours, how much energy is consumed in units of kWh? (A) 6.7 (B) 9.2 (C) 4.2 (D) 5.1 (E) 7.7 13. Find the power dissipated by the wire in watts. (A) 55 (B) 76 (C) 27 (D) 17 (E) 63 14. Find the drift speed of the charge carriers in the wire? (Assume one free electron per atom.) Give an answer in units of 10 m/s. (A) 3.6 (B) 2.5 (C) 6.8 (D) 7.4 (E) 8.9 15. If the wire is at room temperature (200 C) when the device is turned on, and the temperature in the wire triples during operation, by what factor does the resistivity of the wire change? (A) 1.2 (B) 2.3 (C) 3.3 (D) 4.6 (E) 5.6

Answers

The answer to part (a) is (E) 7.7.

The answer to part (c) is (A) 3.6.

The answer to part (d) is (A) 1.2.

R = V/I = 120 V/8.0 A = 15 Ω

P = I^2 R = (8.0 A)^2 × 15 Ω = 960 W

E = P × t = 960 W × 8.0 h = 7680 Wh = 7.68 kWh

To find the drift speed:

v = I/(nAq)

n = (ρ/M) × N_A

v = I/(nAq) = (8.0 A)/(5.99 × 10^28/m^3 × 8.04 × 10^-8 m^2 × 1.6 × 10^-19 C) = 3.64 × 10^-5 m/s

To find the change in resistivity:

Δρ = αρΔT

ρ = ρ_20(1 + αΔT)

Δρ = αρΔT = 3.9 × 10^-3/°C × 1.62 × 10^-8 Ω·m × (3 × 20°C) = 1.18 × 10^-10 Ω·m

Therefore, the answer to part (a), (c), (d) is (E)7.7 ,(A)3.6, (A) 1.2.

To know more about drift speed ,change in resistivity refer here:

https://brainly.com/question/2285172

#SPJ11

short-wavelength light produces ______ colors, whereas long-wavelength light produces _____ colors.

Answers

Short-wavelength light produces blue and violet colors, whereas long-wavelength light produces red, orange, and yellow colors.

This is due to the way that different wavelengths interact with the human eye. Short-wavelengths, which have a higher frequency, are absorbed more quickly by the eye, causing the colors to appear cooler. On the other hand, long-wavelengths, which have a lower frequency, are absorbed more slowly, causing the colors to appear warmer and this is why the colors of a sunset appear warmer, as the sun is emitting long-wavelength light. The slower the electrons move and vibrate, the lower the frequency of the light they reflect, resulting in the object appearing red, orange, or yellow.

To learn more about wavelength click here https://brainly.com/question/13533093

#SPJ11

A distant space probe is programmed to emit aradio signal toward Earth at regular time intervals. One such pulsearrives on Earth 2.92 s after it is emitted from the probe. What isthe approximate distance from the Earth to the probe?

A) 8.76 × 108 m B) 7.40 × 108 m C)6.94 × 108 m D) 4.12 × 108 m

E) 3.50 × 108 m

Answers

We can use the speed of light to determine the distance from the Earth to the probe. Since the radio signal travels at the speed of light, we can use the time it takes for the signal to reach Earth to calculate the distance.

The formula for distance is:
distance = speed x time

The speed of light is approximately 3.00 x 10^8 m/s.

In this case, the time is 2.92 s.

So,
distance = speed x time
distance = 3.00 x 10^8 m/s x 2.92 s
distance ≈ 8.76 x 10^8 m

Therefore, the approximate distance from the Earth to the probe is 8.76 x 10^8 m. The answer is A) 8.76 x 10^8 m.
To find the approximate distance from the Earth to the probe, we can use the formula:

distance = speed x time

In this case, the speed is the speed of light (c), which is approximately 3.00 x 10^8 meters per second (m/s). The time taken for the radio signal to travel from the probe to Earth is 2.92 seconds.

distance = (3.00 x 10^8 m/s) x (2.92 s)

distance ≈ 8.76 x 10^8 m

So, the approximate distance from the Earth to the probe is 8.76 x 10^8 m (option A).

Learn more about radio signals here:-brainly.com/question/19338932

#SPJ11

about the detecting methods of exoplanets, which one of the following statements is not correct? (a) doppler-shift effect can be used to detect exoplanets. (b) imaging can provide direct evidence for the existence of exoplanets. (c) the relative motion between an observer and a star does not change the observed frequency of light from the star. (d) imaging exoplanets is better in infrared wavelengths than in visible wavelengths.

Answers

The statement that is not correct is (c) the relative motion between an observer and a star does not change the observed frequency of light from the star.

This statement is incorrect because the relative motion between an observer and a star does affect the observed frequency of light from the star. This effect is known as the Doppler shift, which causes the observed frequency of light to shift towards the blue end of the spectrum when the star is moving towards the observer, and towards the red end of the spectrum when the star is moving away from the observer. This effect can be used to detect exoplanets using the Doppler-shift method. the relative motion between an observer and a star does not change the observed frequency of light from the star.
Both statement (a) and (b) are correct. The Doppler-shift effect can be used to detect exoplanets, by measuring the small changes in the star's radial velocity caused by the gravitational tug of the orbiting planet. Imaging can also provide direct evidence for the existence of exoplanets, by observing the faint light emitted by the planet itself or by the reflection of the star's light off the planet's atmosphere.
Statement (d) is also correct. Imaging exoplanets is better in infrared wavelengths than in visible wavelengths because most exoplanets emit more radiation at longer wavelengths due to their lower temperatures. Also, infrared light is less affected by scattering and absorption in the Earth's atmosphere, which makes it easier to detect faint signals from distant exoplanets.

learn more about relative here

https://brainly.com/question/19260269

#SPJ11

which indicates the status of the vehicle's alternator? select one: a. ammeter b. voltmeter c. tachometer d. pumping engine throttle

Answers

voltmeter. A voltmeter measures the voltage of the electrical system in the vehicle, which includes the alternator. If the voltage is too high or too low, it can indicate an issue with the alternator. An ammeter measures the flow of electrical current, a tachometer measures engine speed, and pumping the engine throttle

voltmeter. A voltmeter measures the voltage of the electrical system in the vehicle, which includes the alternator. If the voltage is too high or too low, it can indicate an issue with the alternator. An ammeter measures the flow of electrical current, a tachometer measures engine speed, and pumping the engine throttle does not provide information about the alternator status.
The main answer to your question about which instrument indicates the status of a vehicle's alternator is: b. voltmeter.

A voltmeter measures the voltage across the terminals of the alternator, which helps determine its proper functioning. An ammeter measures current, a tachometer measures engine speed, and pumping the engine throttle is an action, not an instrument. Therefore, the voltmeter is the correct choice for assessing the status of the vehicle's alternator.

To know more about tachometer , visit

https://brainly.com/question/20355034

#SPJ11

A clock pendulum oscillates at a frequency of 2.5 Hz. At t = 0, it is released from rest starting at an angle of 14 degrees to the vertical.

a. Ignoring friction, what will be the position (angle in radians) of the pendulum at t = 0.25 s?
b. Ignoring friction, what will be the position (angle in radians) of the pendulum at t = 2.00 s?
c. Ignoring friction, what will be the position (angle in radians) of the pendulum at t = 520 s?

Answers

a. The position (angle in radians) of the pendulum at t = 0.25 is: -0.306 radians

b. The position (angle in radians) of the pendulum at t = 2.00 is: -1.892 radians

c. The position (angle in radians) of the pendulum at t = 5.20 is: -0.306 radians

The answers are well explained below,

a. At t=0, the angular displacement of the pendulum is given by θ = θ0 * cos(ωt), where θ0 is the initial angular displacement and ω is the angular frequency.
Here, θ0 = 14 degrees = 0.244 radians and ω = 2πf = 5π rad/s.
Thus, θ = 0.244*cos(5π*0.25) = -0.306 radians.

b. At t=2 s, θ = 0.244*cos(5π*2) = -1.892 radians.

c. At t=520 s, the pendulum would have completed many oscillations and returned to its initial position, so θ = θ0 = 0.244 radians = -0.306 radians (since the pendulum is symmetric).

To know more about "Angular displacement" refer here:

https://brainly.com/question/31150979#

#SPJ11

The value of AR for GaAs at T=300 K is 7.6x105 A/cmThe Schottky barrier height is ose = 0.80 eV and the diode area A = 1.0x10^4 cm? At what forward voltage Vse will the diode current equal to 1.00 mA?

Answers

The forward voltage at which the diode current is equal to 1.00 mA is approximately 0.62 V.

To calculate the forward voltage at which the diode current is equal to 1.00 mA, we need to use the following equation:

J = J0 * (exp(qV/kT) - 1)

where J is the diode current, J0 is the reverse saturation current, q is the charge of an electron, V is the forward voltage, k is the Boltzmann constant, and T is the temperature in Kelvin.

We can rewrite the above equation as:

V = (kT/q) * ln(J/J0 + 1)

Given that the diode area is A = 1.0x10⁴ cm², the diode current at Vse = 0 is:

J0 = AR * A * T² * exp(-qose/kT) = 7.6x10⁵ A/cm² * 1.0x10⁴ cm² * (300 K)² * exp(-q0.80 eV/kT) = 3.68x10⁻⁹ A

Substituting J = 1.00 mA = 1.00x10⁻³ A, we can solve for the forward voltage:

V = (kT/q) * ln(J/J0 + 1) = (1.38x10⁻²³ J/K * 300 K / 1.60x10⁻¹⁹ C) * ln(1.00x10^⁻³A / 3.68x10⁻⁹ A + 1) = 0.62 V

To know more about voltage click here

brainly.com/question/2364325

#SPJ11

the patella displaces the quadriceps tendon posteriorly, increasing its moment arm and improving its mechanical advantage.

Answers

The patella, also known as the kneecap, serves an important role in the mechanics of the knee joint. One of its functions is to displace the quadriceps tendon posteriorly, which means towards the back of the leg.

This displacement increases the moment arm of the quadriceps muscle, which is the perpendicular distance from the tendon's line of action to the joint axis. The moment arm is important because it determines the effectiveness of the muscle's force in causing joint movement.

By increasing the moment arm, the patella improves the mechanical advantage of the quadriceps muscle. This means that the muscle can generate more force and exert greater torque around the knee joint for a given amount of effort. As a result, the patella helps to increase the stability and efficiency of the knee joint during activities such as walking, running, and jumping.

However, if the patella is not properly aligned or if there is damage to the quadriceps tendon, this displacement can cause problems such as patellar instability or tendinitis. Therefore, it is important to maintain good knee health through proper exercise, stretching, and medical attention when necessary.

You can learn more about the patella at: brainly.com/question/17777204

#SPJ11

Assuming the motor is 30% efficient and runs at the rated voltage, how much current must flow through the motor at maximum output power?

Answers

Assuming the motor is 30% efficient and runs at the rated voltage, we will determine how much current must flow through the motor at maximum output power.

Step 1: Identify the relevant information provided:


- Motor efficiency: 30% (0.3)


-
Rated voltage: V


-
Maximum output power: P_out

Step 2: Determine the input power:


Since we know the motor's efficiency, we can calculate the input power using the formula:


[tex]P_{in} = P_{out} / Efficiency[/tex]


[tex]P_{in} = P_{out} / 0.3[/tex]

Step 3: Calculate the current flowing through the motor:


To find the current, we can use the formula for electrical power:


[tex]P_{in} = V * I[/tex]


Where V is the rated voltage and I is the current.

Step 4: Solve for the current (I):


Now we can plug in the input power formula into the electrical power formula:


[tex]P_{out} / 0.3 = V * I[/tex]

Rearranging to solve for I, we get:


[tex]I = (P_{out} / 0.3) / V[/tex]

Therefore, to determine the current that must flow through the motor at maximum output power, we need to know the rated voltage and the maximum output power.

Once we have these values, we can plug them into the formula

I = (P_out / 0.3) / V to calculate the current.

To know more about output power refer here

brainly.com/question/20335923#

#SPJ11

The center of a 1.00 km diameter spherical pocket of oil is 1.00 km beneath the Earth's surface.Estimate by what percentage g directly above the pocket of oil would differ from the expected value of g for a uniform Earth? Assume the density of oil is 8.0×10^2kg/m3.

Answers

By -3.43*10^-3% g directly above the pocket of oil would differ from the expected value of g for a uniform Earth

Define gravitational acceleration.

The acceleration of an object in free fall within a vacuum is known as gravitational acceleration. This is the constant acceleration brought on just by the gravitational pull. Regardless of their masses or compositions, all objects accelerate at the same rate in a vacuum; the measurement and analysis of these rates is known as gravimetry.

D = 1.00 km

r = 1.00 km

ρo= 8.0×10^2kg/m3

Δg=go−ge

Δg=G(Mo−Me)/r2

ρ=m×V

Δg=(G/r2)(ρo−ρe)×V

Δg=(G/r2)(ρo−ρe)*4/3π(D/2)^3

Earth's density: 500kg/m3

Substituting all values in equation, we get:

Δg=−3.37×10^−4 m/s2

Percentage=Δg/g×100

                  =(-3.37×10^−4/9.8)*100

                  =-3.43*10^-3%

To learn more about gravitational pull use:

https://brainly.com/question/174980

#SPJ4

The center of a 1.00 km diameter spherical pocket of oil is 1.00 km beneath the Earth's surface. The gravitational field directly above the pocket of oil would be about 0.1% weaker than the expected value for a uniform Earth.

We can use the shell theorem to estimate the change in the gravitational field due to the spherical pocket of oil. The shell theorem states that a spherically symmetric mass distribution exerts the same gravitational force on a test particle outside the distribution as if all the mass were concentrated at the center of the distribution.

In our case, we can approximate the Earth as a uniform sphere with a radius of 6371 km and a mass of 5.97 x [tex]10^{24}[/tex] kg. The pocket of oil is a smaller sphere with a radius of 0.5 km and a mass of

m = (4/3)π[tex]r^{3}[/tex]ρ = (4/3)π[tex](500 m)^{3}[/tex](8.0 x [tex]10^{2}[/tex] kg/[tex]m^{3}[/tex]) = 8.38 x [tex]10^{11}[/tex] kg

The distance from the center of the Earth to the center of the oil pocket is 6371 km + 1 km = 6372 km.

The gravitational acceleration due to the Earth's mass at a point above the surface (at a distance r from the center) is given by

g = G M / [tex]r^{2}[/tex]

Where G is the gravitational constant and M is the mass within the radius r.

For a uniform Earth, the expected value of g at a point directly above the center of the oil pocket (at a distance of 6372 km) would be

guniform = G M / [tex]r^{2}[/tex] = (6.67 x [tex]10^{-11[/tex] N [tex]m^{2}[/tex]/[tex]Kg^{2}[/tex]) (5.97 x [tex]10^{24}[/tex] kg) / [tex](6372 km)^{2}[/tex]

= 9.81 m/[tex]s^{2}[/tex]

The gravitational acceleration due to the oil pocket can be approximated as if all the mass were concentrated at its center

goil = G m / [tex]roil^{2}[/tex] = (6.67 x [tex]10^{-11[/tex] N [tex]m^{2}[/tex]/[tex]Kg^{2}[/tex]) (8.38 x [tex]10^{11}[/tex] kg) / [tex](6372 km + 0.5 km)^{2}[/tex]

= 9.81 m/[tex]s^{2}[/tex]

The percentage difference between g directly above the pocket of oil and the expected value of g for a uniform Earth is

Δgpercent = (goil - guniform) / guniform x 100% = (9.81 m/[tex]s^{2}[/tex] - 9.81 m/[tex]s^{2}[/tex]) / 9.81 m/[tex]s^{2}[/tex] x 100%

≈ -0.1%

Therefore, the gravitational field directly above the pocket of oil would be about 0.1% weaker than the expected value for a uniform Earth.

To know more about gravitational here

https://brainly.com/question/28565684

#SPJ4

A 470 ohm resistor, 10 microF capacitor, and 750 mH inductor are each connected across 6.3 V rms, 60 Hz AC power sources.
a) Find the rms current in resistor.
b) Find the rms current in capacitor.
c) Find the rms current in inductor .

Answers

a) In the resistor, the rms current is 13.40 mA.
b) In the capacitor, the rms current is 3.978 mA.
c) In the inductor, the rms current is 0.504 mA.


Step 1: Determine the impedance for each component:
Resistor impedance (Z_R) = 470 ohms
Capacitor impedance (Z_C) = 1/(2π(60 Hz)(10 µF)) ≈ 265.26 ohms
Inductor impedance (Z_L) = 2π(60 Hz)(750 mH) ≈ 282.74 ohms

Step 2: Calculate the rms current for each component:
a) Resistor current (I_R) = V_rms / Z_R = 6.3 V / 470 ohms = 0.01340 A or 13.40 mA
b) Capacitor current (I_C) = V_rms / Z_C = 6.3 V / 265.26 ohms = 0.003978 A or 3.978 mA
c) Inductor current (I_L) = V_rms / Z_L = 6.3 V / 282.74 ohms = 0.000504 A or 0.504 mA

To know more about rms current click on below link:

https://brainly.com/question/29347502#

#SPJ11

Other Questions
robert park argued that city structures go through patterns of ________. how does stephen's social environment shapes his character in a portrait of the artist as a young man you cross a true-breeding blue-flowered plant with a purple-flowered snapdragon from a previous experiment. what phenotypic and genotypic ratios are in the offspring? a sodium-potassium pump uses one atp during each cycle. imagine that 12 times per second a pump goes through a cycle of exporting three sodium ions and importing two potassium ions. how many glucose molecules does the cell break down by aerobic respiration to power this one pump for a minute? (recall that aerobic respiration of one glucose molecule theoretically yields 36 atp.) one explanation for gender differences in aggression, held by theorists, is that throughout history, men were more likely to be hunters and protectors and had to be physically aggressive. in contrast, the idea that men are socialized into roles that prioritize physical aggression is held by theorists. a. historical; cultural b. cultural; social c. cultural; evolutionary d. evolutionary; cultural suppose that consuming one ice cream cone gives you a utility of 20. if you are offered a second ice cream cone, the marginal utility of that second ice cream cone will likely be: the chapter starts with a discussion about the relationship between football and brain injuries. why does the chapter start with this story? how is the ans different from the somatic motor division in terms of the number of neurons present between the spinal cord and effector and the presence or absence of ganglia? architectural firms that specialize in designing and constructing one-of-a-kind custom buildings such as the rock and roll hall of fame often use which pricing strategy? herbert packer likened the idealized criminal justice system to a(n) _________ Triangle ABC is dilated by a scale factor of 3 with the origin as the center of dilation to for triangle A'B'C' The slope of AB is -1. 2. The length of AB is p units, the length of AC is q units, and the length of BC is r units. The slope of A'B is. 1. _____ The length of A'C is 2. _____ units. 1. A. 1. 2 B. -1. 2 C. -3. 62. A. 1/3q B. 3q C. -1. 2p D. (p+q+r) under the final rule, "refill reminders" _________ as paid marketing. 8. what type of curves or surfaces might be used in a graphical representation of physical phenomena that have similar shapes at multiple scales? a 5.0-m-diameter merry-go-round is initially turning with a 4.0 s period. what is the speed of a child on the rim? Write your answer to each part clearly. Support your answers with relevant information and examples. Where calculations are required, show your work. The City of Philadelphia recently replaced one out of every 10 trash bins with solar-powered trash compactors. The compactor is an enclosed unit with a door that opens for trash disposal. The compactor automatically detects when the bin is full and uses a solar-powered mechanical crusher to compact the contents. When the compactor needs to be emptied, it sends an electronic signal. Use of solar-powered compactors has increased the capacity of public trash bins and has reduced the number of trash collection visits to each bin from 17 times per week to 5 times per week. (a) Describe four positive externalities of installing solar-powered trash compactors. (b) Describe six cradle-to-grave components of solar-powered trash compactors. (c) Suggest one way that the installation of solar powered trash compactors can reverse the effects of urban blight. (d) The price of a regular trash bin is $300, and it has a lifespan of 20 years. The price of a solar powered trash compactor is$4,000, and it has a lifespan of 10 years; it also requires approximately $150 in maintenance costs each year. On average, a trash collection visit costs$5 in fuel and $20 in employee salary. Based on this information, are solar-powered trash compactors economically beneficial? (e) Describe two ways that you might determine if solar-powered trash compactors are environmentally beneficial. If an individual has an extra chromosome in every one of its cells, what mutation must have occurred? (1 point)A non-disjunction mutation in the gamete of one of the parentsA non-disjunction in both gametes of the parentsA non-disjunction in one of the first gamete cells of the individualA non-disjunction mutation in body cells of both parents Colorblindness and hemophilia areexamples of sex related traits. The__is the carrier. Which of the following is/are associated with cAMP binding to cAMP-dependent protein kinase/PKA?I. cAMP binds to the regulatory subunitsII. Tetrameric regulatory subunits and catalytic subunits dissociateIII. Catalytic subunits phosphorylate multiple targets with specific serine and threonine residuesIV. cAMP is membrane bound via phosphoinositol attachmenta.III, IVb.II, III, IVc.I, II, III, IVd.I, IIe.I, II, III If you wanted to measure the carbon assimilation into the ocean, two important variables to measure would be ___O photosynthesis and respiration O algae and dissolved CO2O bicarbonate and phytoplankton O mineralization and respiration O surface currents and sedimentation of carbon as part of the data gathering that is being conducted to identify baselines prior to an ebp initiative, a nurse will be using software to analyze the data statistically. which level of data is most likely to produce clinically useful results?