why is ongoing safety training important

The value of the site is $10,472,000.

The total construction costs are:

$6,000/m2 * 10,000m2 + $400,000 = $64,000,000

The professional fees are:

$64,000,000 * 0.13 = $8,320,000

The total development costs are:

$64,000,000 + $8,320,000 = $72,320,000

The developer's return for risk and profit is:

$72,320,000 * 0.20 = $14,464,000

The total cost of the development is:

$72,320,000 + $14,464,000 = $86,784,000

The expected rent is:

$3,000/m2 * 8,000m2 * 12 months = $28,800,000

The initial yield is:

$28,800,000 * 0.07 = $2,016,000

The value of the site is:

$86,784,000 - $2,016,000 = $10,472,000

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Answer:

b. A view of a building seen from one side, a flat representation of one façade. This is the most common view used to describe the external appearance of a building.

Explanation:

An elevation is a three-dimensional, orthographic, architectural projection that reveals just a side of the building. It is represented with diagrams and shadows are used to create the effect of a three-dimensional image.

It reveals the position of the building from ground-depth and only the outer parts of the structure are illustrated. Elevations, building plans, and section drawings are always drawn together by the architects.

Answer:

it is reducely very iloretable chance for a software engineer to give an end to this question

Misaligned goals, incentives, and expectations as well as disparities in negotiating power and information asymmetry can all lead to channel conflict between manufacturers and dealers in the automotive industry.

A number of misalignments in the automotive industry can lead to channel conflict between manufacturers and dealers. A discrepancy in aims and objectives is one of the main causes. Although dealers strive for profitability and customer pleasure, manufacturers frequently place a higher priority on growing sales volume and market share. Conflicts over inventory, price, and promotions may result from this mismatch. The mismatch of power and control is another example. Manufacturers could try to exercise more influence over dealer operations, which might result in disagreements over decision-making and autonomy. Lastly, conflicts over price, incentives, and performance expectations might arise as a result of knowledge asymmetry between manufacturers and dealers.

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Answer:

b.) The car travels around a circular track at 30 m/s

Explanation:

To find - In which situation is the speed of the car constant while its velocity is changing?

a.) The car travels down a straight track at 30 m/sec

b.) The car travels around a circular track at 30 m/s

c.) The car begins from rest and accelerates to 20 m/s

d.) The car begins traveling at 30 m/s and decreases to 15 m/s

Proof -

We know that,

Speed is distance covered in a particular time

Velocity is distance covered by body in particular time in defined direction.

Now,

In a.)

Speed and direction is not changing.

So, Option a) is wrong.

In c.) and d.)

There exists a  positive and negative acceleration.

Even If direction is constant, but the magnitude of speed is changing here, So, Option c) and d) are wrong.

Now,

In b.)

We can see that,

Due to circular motion, the speed of the car is constant at 30 m/s

But Due to circular motion, direction is changing continuously.

So, here speed is constant while its velocity is changing.

∴

The correct option is - b.) The car travels around a circular track at 30 m/s

The purification of a wide range of materials involves the use of distillation, a significant commercial procedure.

The purification of a wide range of materials involves the use of distillation, a significant commercial procedure. However, it would definitely be helpful to clarify the terms that describe the procedure and related qualities before we start a discussion of distillation.

Although you may be familiar with several of these terms, you might not be aware of their precise definitions. Let's start by outlining the procedure for changing a material from its condensed phase to its gas phase. This process is known as sublimation for solids and vaporization for liquids. Both procedures call for heat.

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Answer:

0.52359877559

Explanation:

I did the math, it was hard and I regret it, make me brainiest please.

Answer:

cos (πe/6)

Hope this helps :D

This question is incomplete, the complete question is;

For a steel alloy it has been determined that a carburizing heat treatment of 11.3 h duration at Temperature T1 will raise the carbon concentration to 0.44 wt% at a point 1.8 mm from the surface. A separate experiment is performed at T2 that doubles the diffusion coefficient for carbon in steel.

Estimate the time necessary to achieve the same concentration at a 4.9 mm position for an identical steel and at the same carburizing temperature T2.

Answer:

the required time to achieve the same concentration at a 4.9 is 83.733 hrs

Explanation:

Given the data in the question;

treatment time t₁ = 11.3 hours

Carbon concentration = 0.444 wt%

thickness at surface x₁ = 1.8 mm = 0.0018 m

thickness at identical steel x₂ = 4.9 mm = 0.0049 m

Now, Using Fick's second law inform of diffusion

\(x^2\) / Dt = constant

where D is constant

then

\(x^2\) / t = constant

\(x^2_1\) / t₁ = \(x^2_2\) / t₂

\(x^2_1\) t₂ = t₁\(x^2_2\)

t₂ = t₁\(x^2_2\) / \(x^2_1\)

t₂ = (\(x^2_2\) / \(x^2_1\))t₁

t₂ = \((\) \(x_2\) / \(x_1\) \()^2\) × t₁

so we substitute

t₂ = \((\) 0.0049  / 0.0018  \()^2\) × 11.3 hrs

t₂ = 7.41 × 11.3 hrs

t₂ = 83.733 hrs

Therefore, the required time to achieve the same concentration at a 4.9 is 83.733 hrs

Answer:

Get ready and comfortable.

List all of the tasks you need to accomplish over the next week. .

Next schedule everything.

Get a planner/calender.

Cut those tasks that do not fit into your

The answer to your question is "area". Each hotspot within the map element is defined using the "area" element.

The "area" element is used to define a clickable area within an image or a map. It is typically used in conjunction with the "img" or "map" element to provide a clickable map interface to the user. The "area" element requires the use of several attributes to define the clickable region. These attributes include the "shape" attribute, which defines the shape of the clickable area, such as a rectangle, circle, or polygon. The "coords" attribute is used to define the coordinates of the shape, and the "href" attribute specifies the URL to which the user should be redirected when they click on the area.

Hotspots are a common feature in interactive maps, where they allow the user to click on a specific area of the map to reveal more information about that location. This can be especially useful in travel or tourism websites, where users may want to learn more about specific landmarks or points of interest. Overall, the "area" element is an important tool for web developers who want to create interactive maps and other clickable images on their websites.

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As a project manager, I would employ the following strategy to address resistance to changes in the home renovation project:

Strategy: Effective Communication and Stakeholder Engagement

To address resistance to changes, it is crucial to establish open and transparent communication channels with all stakeholders involved in the project. This includes homeowners, contractors, architects, and any other relevant parties. By actively engaging with stakeholders and listening to their concerns, I can gain their trust and create a collaborative environment.

Firstly, I would conduct regular meetings to explain the purpose and benefits of the renovation project. This would help stakeholders understand the need for change and alleviate any uncertainties or misconceptions. Clear and concise communication is key to ensuring everyone is on the same page.

Secondly, I would encourage active participation from stakeholders, seeking their input and involvement in decision-making processes. By involving them in the planning and design stages, they will feel a sense of ownership and be more willing to embrace the changes. This approach also allows for potential conflicts or objections to be addressed early on, reducing resistance later in the project.

Additionally, I would establish a feedback mechanism to address any concerns or issues promptly. This could involve setting up a dedicated communication channel or having a designated project team member responsible for handling stakeholder queries. Regular updates on project progress and milestones would also help manage expectations and build trust.

By employing effective communication and stakeholder engagement strategies, I can minimize resistance to changes and foster a collaborative environment throughout the home renovation project.

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The specific thrust ratio, specific fuel consumption, and overall efficiency of an ideal turbofan engine vary with both bypass ratio and free stream Mach number. At low bypass ratios, the specific thrust ratio and overall efficiency increase with increasing Mach number, while the specific fuel consumption decreases. However, at high bypass ratios, the trend reverses, with the specific thrust ratio and overall efficiency decreasing and the specific fuel consumption increasing with increasing Mach number.

For the given design parameters of a fan pressure ratio of 2, compressor pressure ratio of 20, fuel heating energy of 43.5 MJ/kg, and exit temperature of the combustor of 1320 K, the specific thrust ratio, specific fuel consumption, and overall efficiency will vary differently with bypass ratio and Mach number. At low Mach numbers, the specific thrust ratio and overall efficiency will be higher for higher bypass ratios, while the specific fuel consumption will be lower. At higher Mach numbers, the specific thrust ratio and overall efficiency will decrease for higher bypass ratios, while the specific fuel consumption will increase. This trade-off between specific thrust, fuel consumption, and efficiency is a key consideration in turbofan engine design and optimization.

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This is because the external force helps to overcome the resistance to flow created by the fluid's viscosity and inertia. In contrast, in free convection, the fluid moves on its own due to differences in density caused by temperature differences, which are typically much lower than those generated by external forces. Therefore, the rate of heat transfer is lower in free convection than in forced convection.

What is heat transfer?

Heat transfer is the process by which thermal energy is transferred from one object to another. It can occur through three different methods: conduction, convection, and radiation.

What is forced convection?

Forced convection is a type of heat transfer that occurs when a fluid, such as a gas or a liquid, is forced to move over a surface by an external force such as a fan or a pump. In contrast, free convection occurs when a fluid is not forced to move by an external force but instead moves due to differences in density caused by temperature differences. Heat transfer rates are higher in forced convection than free convection because forced convection involves the use of an external force to move the fluid, which helps to increase the rate of heat transfer.

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Answer:

Mass, in physics, quantitative measure of inertia, a fundamental property of all matter.

Explanation:

Mass is the matter that makes up objects

The correct answer would be **d. 24%**. The **speed regulation** is a measure used to determine the difference in speed between the no-load and full-load conditions for a motor. In this case, the speed regulation is **24%**.

Speed regulation is calculated using the formula:

Speed regulation = (No-load speed - Full-load speed) / No-load speed * 100%

In this scenario, the no-load speed is 3000 rpm, and the full-load speed is 2500 rpm. Plugging these values into the formula:

Speed regulation = (3000 - 2500) / 3000 * 100%

Speed regulation = 500 / 3000 * 100%

Speed regulation ≈ 16.67%

Therefore, the correct answer would be **d. 24%**.

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By using the concept of heat transfer, we need to add 0.045kg or 45g of ice to the glass of water to cool it from 20∘C to 0∘C.

The heat lost by the water is equal to the heat gained by the ice cubes. We can use the following equation to calculate the heat transfer:

Q = m_w * c_w * ΔT + m_i * L_f

where Q is the heat transfer, m_w is the mass of water, c_w is the specific heat of water, ΔT is the temperature change (20-0 = 20∘C), m_i is the mass of ice, and L_f is the latent heat of fusion of ice.

We know the values of m_w (0.45kg), c_w (4.18kJ/kg⋅∘C), ΔT (20∘C), and L_f (334kJ/kg). We can rearrange the equation to solve for m_i:

m_i = (Q - m_w * c_w * ΔT) / L_f

Substituting the values, we get:

m_i = [(0.45kg) * (4.18kJ/kg⋅∘C) * (20∘C) - 0] / (334kJ/kg

m_i = 0.045kg

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The maximum flexure or bending stress in the beam is increased by a factor of 4.

The maximum flexure or bending stress in a beam is calculated using the equation:

σ = Mc/I

Where,

σ = Maximum flexure or bending stress (MPa)

M = Maximum bending moment (N.m)

c = Distance from Neutral Axis to outermost fibre (mm)

I = Moment of Inertia (mm4)

For the given beam,

Initial Section: 12 x 16 in.

Final Section: 12 x 32 in.

For the initial section:

I1 = b1 x h12^3/12 = 12 x 162^3/12 = 24576 in4

For the final section:

I2 = b2 x h22^3/12 = 12 x 322^3/12 = 98304 in4

Therefore, the Moment of Inertia (I) is increased by a factor of 4 (I2 = 4 x I1).

Since M and c remain unchanged, the maximum flexure or bending stress (σ) is increased by a factor of 4 (σ2 = 4 x σ1).

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The option that is not a property of refrigerants is;

D: Its pressure remains unchanged during the cooling cycle.

A refrigerant is defined as a working fluid that is used in the refrigeration cycle of air conditioning systems and heat pumps.

Now, there are a couple of desirable properties of refrigerants and they are;

Lokking at the given options, the only one that is not a property of a refrigerant is that  Its pressure remains unchanged during the cooling cycle.

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Answer:

A) condenser pressure = 9.73 kPa,

B) 10242 kw

C) 36.9%

Explanation:

given data

entrance pressure of steam = 12.5 MPa

temperature of steam = 550⁰c

flow rate of steam = 7.7 kg/s

outer pressure = 2 MPa

reheated steam temperature = 450⁰c

isentropic efficiency of turbine( nt ) = 85% = 0.85

isentropic efficiency of pump = 90% = 0.90

From steam tables

at 12.5 MPa and 550⁰c ; h3 = 3476.5 kJ/kg,  S3 = 6.6317 kJ/kgK

also for an Isentropic expansion

S4s = S3 .

therefore when S4s = 6.6317 kJ/kg and P4 = 2 MPa

h4s = 2948.1 kJ/kg

nt = 0.85

nt (0.85) = \(\frac{h3-h4}{h3-h4s}\) = \(\frac{3476.5 - h4}{3476.5 - 2948.1}\)

making h4 subject of the equation

h4 = 3476.5 - 0.85 (3476.5 - 2948.1)

h4 = 3027.3 kj/kg

at P5 = 2 MPa and T5 = 450⁰c

h5 = 3358.2 kj/kg,  s5 = 7.2815 kj/kgk

at P6 , x6 = 0.95  and s5 = s6

using nt = 0.85 we can calculate for h6 and h6s

from the chart attached below we can see that

p6 = 9.73 kPa, h6 = 2463.3 kj/kg

B) the net power output

solution is attached below

c) thermal efficiency

thermal efficiency = 1 - \(\frac{qout}{qin}\) = 1 - ( 2273.7/ 3603.8) = 36.9% ≈ 37%

Answer:

er of passes through zero

Example:

Input data:

10

1 3 -2 -6 4 10 1 -5 4 1 Output data:

4

Explanation:

There are 4 sign changes between two consecutive samples:

3 -2 -> sign change (first zero crossing)

-6 4 -> sign change (second zero crossing)

Explanation:

er of passes through zero

Example:

Input data:

10

1 3 -2 -6 4 10 1 -5 4 1 Output data:

4

Explanation:

There are 4 sign changes between two consecutive samples:

3 -2 -> sign change (first zero crossing)

-6 4 -> sign change (second zero crossing)er of passes through zero

Example:

Input data:

10

1 3 -2 -6 4 10 1 -5 4 1 Output data:

4

Explanation:

There are 4 sign changes between two consecutive samples:

3 -2 -> sign change (first zero crossing)

-6 4 -> sign change (second zero crossing)er of passes through zero

Example:

Input data:

10

1 3 -2 -6 4 10 1 -5 4 1 Output data:

4

Explanation:

There are 4 sign changes between two consecutive samples:

3 -2 -> sign change (first zero crossing)

-6 4 -> sign change (second zero crossing)er of passes through zero

Example:

Input data:

10

1 3 -2 -6 4 10 1 -5 4 1 Output data:

4

Explanation:

There are 4 sign changes between two consecutive samples:

3 -2 -> sign change (first zero crossing)

-6 4 -> sign change (second zero crossing)

Answer:

Solvents can damage certain plastics and rubbers found in the engine

Explanation:

The values of h at the two internal boundaries are :

Given data :

Z₁ = Z₂ = Z₃ = 25 m

h top = 120 m

h bottom = 100 m

K₁ = 0.0001 m/s

K₂ = 0.0005 m/s

K₃ = 0.0010 m/s

we will apply the formula below since flow is perpendicular to the bedding plane

Keq = \(\frac{Z1 + Z2 + Z3 }{\frac{Z1}{K1}+\frac{Z2}{K2} + \frac{Z3}{K3} }\)  ----- ( 1 )

Insert values given above into equation 1

Therefore ; Keq = 2.307 * 10⁻⁴ m/s

Hydraulic gradient ( Ieq ) = head loss / length

                                          = ( 120 - 100 ) / 3 * 25

                                   Ieq  = 0.266

Given that the flow is perpendicular to bedding plane

q1 = q2 = q3

V₁ = V₂ = V₃ = V

K₁i₁ = K₂i₂ = K₃i₃ = Keq * ieq

Hence :

V = Keq* Ieq

   = 2.307 * 10⁻⁴ * 0.266

   = 6.15 * 10⁻⁵ m/s .

Also;

K₁i₁ =  Keq * ieq = K₂i₂ = K₃i₃

therefore :

  i₁ = 0.615

  i₂ =  0.123

  i₃ = 0.0615

Pressure at point 1 ( i.e. pressure between first two formations )

h₁ = h top - i₁L₁

   = 120 - 0.615 * 25

   = 104.625 m

Pressure at point 2 ( i.e. pressure between the 2nd and 3rd formation )

h₂ = h₁ - i₂L₂

    = 104.625 - 0.123 * 25

    = 101.55 m

Therefore we can conclude that The values of h at the two internal boundaries are :  h₁ = 104.625 m , h₂ = 101.55 m

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Answer:  

A.

Explanation:

The total cavity volume in the casting will be 0.126 m³.

The total cavity volume in the casting can be obtained by first meansuignt he effective weight. This is done by subtracting the weight of the casting iron from the density of iron which is multiplied by the volume of the cast material.

Essentially, the volume of the cast iron will be obtained thus:

(6000 - 4000/ 9.8 m/s² * 1000 kg/m³) - 6000/9.8 m/s² * 7.87 * 10³ kg/m³

= 0.126 m³

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It seems like you are looking for an uncertainty analysis of the elastic modulus using the given data. To perform this analysis, we will focus on the relevant variables: length, width, thickness, and voltage. We will use the following formula for uncertainty:

uncertainty = √[(Δlength/length)^2 + (Δwidth/width)^2 + (Δthickness/thickness)^2 + (Δvoltage/voltage)^2]

Using Material 1 data as an example:

Length: 14.375 in (Δlength = 0.001 in)
Width: 1.003 in (Δwidth = 0.001 in)
Thickness: 0.187 in (Δthickness = 0.001 in)
Voltage: 10.16 V (Δvoltage = 0.01 V)

uncertainty = √[(0.001/14.375)^2 + (0.001/1.003)^2 + (0.001/0.187)^2 + (0.01/10.16)^2] ≈ 0.0199

You can calculate the uncertainty for Material 2 and Material 3 using the same approach. Remember that the uncertainty value can be different for each material due to the variations in dimensions and voltage measurements.

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The statement "Employees are not responsible for their own safety while at work" is false because Employees most certainly are responsible.

A multidisciplinary discipline dealing with the safety, health, and welfare of individuals at work is known as occupational safety and health, often known as occupational health and safety, occupational health, or occupational safety.

An environment that is safe and healthy for workers may minimize injury and sickness expenses, lower levels of absenteeism, boost output and quality, and improve employee morale. In other words, safety benefits the business.

Thus, the statement "Employees are not responsible for their own safety while at work" is false because Employees most certainly are responsible.

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Answer:

Use a dictionary?

Explanation:

Bad wording of the question...

c. No, decompilation of the code is a violation of the third party's intellectual property rights.

Decompiling the code without the explicit permission of the third-party tool owner is generally considered unethical and illegal. Intellectual property rights protect the ownership and rights of the original code creator. Decompiling their code without proper authorization is a violation of those rights.

If you encounter a bug in a third-party tool, the appropriate course of action is to report the bug to the tool owner or provider. They are responsible for addressing and fixing the issue. It is not acceptable to decompile the code without their permission, even if there are delays or escalations in the project.

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