Climate change isn't just about temperature! The amount of rain and snow (precipitation) in certain regions of the U.S. is also changing. In some areas, the amount of precipitation has decreased. Scientist predict that these dry areas will get even drier in the future.

If the warmer areas on the map also become drier, what will happen to wildfire risk?

Drier conditions will likely result in fewer wildfires
Drier conditions will likely result in more wildfires
No difference

Answer:

desire to make money that motivates people to produce and sell goods and services. ... rivalry among producers or sellers of similar goods and services to win more business. economic efficiency. wise use of available resources so that costs do no exceed benefits.

Answer:

10.5

Explanation:

Convert to an equation for example P%* X=Y

P is 7.5% X is 140, so the equation Is 7.5 percent * 14= Y

convert 7.5% Into a decimal by removing the percent sign and deviding by 7.5/100= 0.075

Substitute 0.075 for 7.5% in the equation: 7.5%*140=Y becomes 0.075*140= 10.5

Answer: c. Centre of pressure​

Explanation:

Pressure is applied on a surface when a force is exerted on a particular point on that surface by another object when the two come into contact with each other.

The point where the pressure is applied is known as the centre of the pressure with the force then spreading out from this point much like an epicentre in an earthquake.

Answer:

Explanation:

It is useful to consider the voltage at X to be the superposition of two voltages divided by the R1/R2 voltage divider. It is also helpful to remember that OUT = -VX·AVOL.

__

  \(V_X=\dfrac{V_1\cdot R_2+V_{out}\cdot R_1}{R_1+R_2}=\dfrac{V_1\cdot R_2-V_X\cdot A_{VOL}\cdot R_1}{R_1+R_2}\\\\V_X(R_1(1+A_{VOL})+R_2)=V_1\cdot R_2\\\\\boxed{V_X=V_1\dfrac{R_2}{R_2+R_1(1+A_{VOL})}}\)

__

Filling in the given numbers, we find VX to be ...

  \(V_X=-0.01V\cdot\dfrac{400000}{400000+4000(1+10000)}=-0.01V\cdot\dfrac{100}{10101}\\\\\boxed{V_X=\dfrac{-1}{10101}V\approx-99.0001\mu V}\)

__

As we said at the beginning, OUT = -VX·AVOL. Multiplying the expression for VX by -AVOL, we get ...

  \(\boxed{V_{out}=-V_1\cdot\dfrac{A_{VOL}\cdot R_2}{R_2+R_1(1+A_{VOL})}}\)

__

As with the expression, the output voltage is found by multiplying VX by -AVOL:

  \(V_{out}=\dfrac{(-1)(-10000)}{10101}V\\\\\boxed{V_{out}=\dfrac{10000}{10101}V\approx 0.990001V}\)

Answer:

A

Explanation:

the type of work they do

Answer:

The City can grant higher budgets to emergency services like the Fire Department, so a higher budget will allow engineers & scientists to innovate new technology and add more fire stations across the city.

Explanation:

The statement given, when using a GET request, the parameters are included as part of the URL and are therefore in the HEADER part of the HTTP request, is true.

This is true because when using a GET request, the parameters that are sent with the request are included as part of the URL. This means that the parameters are part of the HEADER part of the HTTP request.

An HTTP request is a request for data sent from a web browser or other client to a web server. The web server then processes the request and returns a response, which may include data, a web page, an error message, or other information.

HTTP requests are used to make dynamic webpages, send and receive data, and perform other tasks.

Complete question:

When using a GET request, parameters are included as part of the URL and are thus found in the HEADER portion of the HTTP. True or false?

Learn more about HTTP request:

https://brainly.com/question/12921030

#SPJ4

Answer:

10

Explanation:

The speed of the chain is the same for both sprockets.

vᵢ = vₒ

ωᵢ rᵢ = ωₒ rₒ

The sprockets have the same pitch, so the radius is proportional to the number of teeth.  So we can say:

ωᵢ nᵢ = ωₒ nₒ

Plugging in values:

(60 rpm) (40) = (240 rpm) nₒ

nₒ = 10

The output sprocket has 10 teeth.  This makes sense, if the output sprocket is 4 times smaller, it will turn 4 times faster than the input sprocket.

Answer: it is 10 teeth and the guy under me already explained soo

Explanation:

The most appropriate layout for an automobile assembly line process is a Product layout.

In automobile manufacturing, a product layout is the most appropriate assembly line process. This layout involves arranging workstations and equipment in a sequential order that matches the production steps required to assemble the vehicles. Each workstation is dedicated to a specific task, such as installing a particular component or system, and the vehicles move along the line as the assembly progresses.

The product layout offers several advantages in terms of efficiency and productivity. It allows for a smooth, uninterrupted flow of work, minimizing unnecessary movement and reducing production time. Specialized tools and equipment can be stationed at each workstation, ensuring that workers have everything they need at hand. Additionally, this layout enables standardized processes and quality control measures to be implemented effectively, leading to consistent product quality.

The product layout in automobile assembly lines optimizes efficiency, productivity, and quality by arranging workstations and equipment in a sequential order. This layout streamlines the assembly process, reducing unnecessary movement and ensuring a smooth flow of work. Specialized tools and equipment are stationed at each workstation, enabling workers to perform their tasks efficiently.

Standardized processes and quality control measures can be implemented effectively, resulting in consistent product quality. The product layout is widely used in the automotive industry to maximize production efficiency and meet customer demands.

Learn more about assembly line

brainly.com/question/31051492

#SPJ11

Therefore, the difference between the original crack tip radius and the etched crack tip radius is 0.37.

The stress intensity factor (K), a measurement of the stress at a crack's tip, and a material's fracture strength are connected. Reducing the crack length and increasing the crack tip radius can increase a material's fracture strength, according to the stress intensity factor theory.

A reduction in the crack length of 1 - 0.63 = 0.37 is indicated by the removal of 63.0% of the crack length. Given that the fracture tip radius has presumably widened correspondingly, we can write:

Y1 * σ * √π * R1 = 4 * Y2 * σ * √π * R2

Dividing by Y2 * σ * √π, we get:

R1 / R2 = 4 * Y2 / Y1

R2 = R1 * (1 - 0.63) = R1 * 0.37

R1 / (R1 * 0.37) = 4 * Y2 / Y1

Dividing both sides by R1, we get:

1 / 0.37 = 4 * Y2 / Y1

R2 / R1 = 0.37 / 1 = 0.37

Learn more about fracture Visit: brainly.com/question/5404553

#SPJ4

Solution :

As the plane is flying in the air, the force of weight is pulling the plane down. This force must be equal to the force of lift which is generated from the plane's translation true the air. Therefore, the next condition must be satisfied.

\($F_W= L $\)  ................. (i)

The lift force of the plane is given by :

\($L=C_V \frac{\rho}{2} V^2 A$\)

Since the weight force of the plane is given, from the condition (i), we also know the intensity of the lift force.

Therefore, we transform the lift force expression to derive the lift coefficient formula:

\($C_L=\frac{2L}{\rho V^2 A}$\)

\($C_L=\frac{2 \times 1700}{2.38 \times 10^{-3 }\times (167.2)^2 \times 178} $\)

\($C_L = 0.287$\)

Let $x ij$ represent the quantity of cars that will be delivered in the following two hours from city I to city j.

Network Diagram:

LP Formulation:

Maximize Z = 150x14 + 150x24

Subject to:

x11 + x12 + x13 + x14 <= 300 (flow from city 1 to other cities)

x21 + x22 + x23 + x24 <= 300 (flow from city 2 to other cities)

x31 + x32 + x33 + x34 <= 300 (flow from city 3 to other cities)

x41 + x42 + x43 + x44 <= 300 (flow from city 4 to other cities)

x11 + x21 + x31 + x41 = 150 (flow into city 1)

x12 + x22 + x32 + x42 = 150 (flow into city 2)

x13 + x23 + x33 + x43 = 150 (flow into city 3)

x14 + x24 + x34 + x44 = 150 (flow into city 4)

xij >= 0 (all variables must be positive)

To learn more about network diagram and the LP formulation refer to:

https://brainly.com/question/29672656

#SPJ4

Answer:

b

Explanation:

The thing that happens when a capacitor is connected to a DC source is that Capacitors charge up until the voltage across the capacitor is equal to the externally applied voltage when they are linked across a direct current DC supply voltage.

Capacitors slowly charge in a DC circuit until the charging voltage of the capacitor is equal to the supply voltage. The capacitor will not permit any extra charges to travel through it after it has been fully charged.

Note that the link between a capacitor and voltage and current can be summarized as follows: the capacitance and the rate of rise or fall of the voltage determine how much current flows through a capacitor. A strong positive current will be produced through a capacitor if the voltage across the capacitor rises quickly.

Learn more about capacitor from

https://brainly.com/question/14883923
#SPJ1

Answer: b. STP

Explanation:

Twisted Pair Cables are best used for network cabling but are usually prone to EMI (Electromagnetic Interference) which affects the electrical circuit negatively.

The best way to negate this effect is to use Shielding which will help the cable continue to function normally. This is where the Shielded Twisted Pair (STP) cable comes in.

As the name implies, it comes with a shield and that shield is made out of metal which can enable it conduct the Electromagnetic Interference to the ground. The Shielding however makes it more expensive and in need of more care during installation.

Answer:

10.203 Volts

Explanation:

For this problem, we need to understand that a series resistive circuit is simply a circuit with some type of voltage source and some resistors, in this case, R1 and R2.

First, we need to find the voltage in the circuit.  To do this, we need to find the total resistance of the circuit.  When two resistors are in series, you sum the resistance.  So we can say the following:

R_Total = R1 + R2

R_Total = 570 Ω + 560 Ω

R_Total = 1130 Ω

Now that we have R_Total for the circuit, we can find the voltage of the circuit by using Ohm's law, V = IR.

V_Total = I_Total * R_Total

V_Total = 17.9 mA * 1130 Ω

V_Total = 20.227 V

Now that we have V_Total, we can find the voltage drop across each resistor by using Ohm's law once more.  Note, that since our circuit is series, both resistors will have the same current (I.e., I_Total = I_1 = I_2).

V_Total = V_1 + V_2

V_Total = V_1 + I_2*R2

V_Total - I_2*R2 = V_1

20.227 V - (17.9 mA * 560 Ω) = V_1

20.227 V - (10.024 V) = V_1

10.203 V = V_1

Hence, the voltage drop across R1 is 10.203 Volts.

Cheers.

If x(t) = Vs(t) and y(t) = Vc(t), where Vs(t) is the input voltage and Vc(t) is the voltage across the capacitor, we can derive the differential equation relating the two.

In the RLC circuit, we have a resistor (R), an inductor (L), and a capacitor (C) cnnected in series.

Using Kirchhoff's voltage law, we can write the equation:

Vs(t)  VR(t) + VL(t) + VC(t)

Where VR(t) is the voltage across the resistor, VL(t) is the voltage across the inductor, and VC(t) is the voltage across the capacitor.

Since y(t) = Vc(t), we can rewrite the equation as:

Vs(t) = VR(t) + VL(t) + y(t)

ow let's express each component of the circuit in terms of its voltage and current.

\(VR(t) = IR(t) * RVL(t) = L * dI(t)/dtVC(t) = (1/C) ∫[0 to t] I(t') dt'\)

Substituting these expressions back into the equation, we have:

\(Vs(t) = IR(t) * R + L * dI(t)/dt + (1/C) ∫[0 to t] I(t') dt' + y(t)\)

Rearranging the equation and assuming ideal components, we get:

\(L * dI(t)/dt + IR(t) * R + (1/C) ∫[0 to t] I(t') dt' + y(t) = Vs(t)\)

Differentiating both sides of the equation with respect to time, we get:

\(L * d²I(t)/dt² + R * dI(t)/dt + (1/C) * I(t) + dy(t)/dt = dVs(t)/dt\)

This is the derived differential equation relating the input x(t) = Vs(t) and the output y(t) = Vc(t) for the given RLC circuit. If x(t) = Vs(t) and y(t) = I(t), where Vs(t) is the input voltage and I(t) is the current flowing through the circuit, we can derive the differential equation relating the two.

Using Kirchhoff's voltage law, we can write the equation:

\(Vs(t) = VR(t) + VL(t) + VC(t)\)

Since y(t) = I(t), we can rewrite the equation as:

\(Vs(t) = VR(t) + VL(t) + (1/C) ∫[0 to t] y(t') dt'\)

Now let's express each component of the circuit in terms of its voltage andcurrent.

\(VR(t) = IR(t) * RVL(t) = L * dI(t)/dtVC(t) = (1/C) ∫[0 to t] I(t') dt'\)

Substituting these expressions back into the equation, we have:

\(Vs(t) = IR(t) * R + L * dI(t)/dt + (1/C) ∫[0 to t] I(t') dt'\)

Differentiating both sides of the equation with respect to time, we get:

\(L * d²I(t)/dt² + R * dI(t)/dt + (1/C) * I(t) = dVs(t)/dt\)

This is the derived differential equation relating the input x(t) = Vs(t) and the output y(t) = I(t) for the given RLC circuit.

To learn more about capacitor click on the link below:

brainly.com/question/16810255

#SPJ11

The negative plate of a storage battery is typically made of a lead-based material.

Negative plate is commonly composed of a grid or frame made of lead alloy.

This grid structure provides support and acts as a scaffold for the active material on the plate.

The active material on the negative plate of a lead-acid battery is lead dioxide (PbO₂).

This active material participates in the chemical reactions that occur during the charging and discharging processes of the battery.

Lead-acid batteries are widely used in various applications, including automotive batteries and backup power systems, due to their relatively low cost, high energy density, and ability to deliver high bursts of current.

To learn more on Battery click:

https://brainly.com/question/19225854

#SPJ4

Answer:

  about 1.54 °C

Explanation:

The error will be the difference between the temperature interpreted from the resistance value and the actual temperature. The linear equation used to translate the resistance reading to temperature will be ...

  T = (200 -0)/(175.83 -100.00)(R -100.00)

  T ≈ 2.637479(R -100)

At the temperature of 100°C, the resistance value of 138.50 will be interpreted to be a temperature of ...

  T = 2.637479(138.50 -100) ≈ 101.543°C

This represents an error of 1.543°C relative to the actual temperature.

Companies like Tesla use key performance indicators (KPIs) to quantify whether individuals are on the right track for achieving strategic objectives. So, option C is accurate.

Key performance indicators are measurable metrics that organizations use to evaluate and monitor progress towards their goals. These indicators provide valuable insights into the performance and effectiveness of different aspects of the business. By defining and tracking KPIs, companies like Tesla can assess the performance of individuals and teams, identify areas for improvement, and ensure alignment with strategic objectives.

While advanced data analytics and frequent meetings may also play a role in evaluating performance and progress, key performance indicators are specifically designed to provide a quantifiable and objective measure of success. They allow companies to assess performance consistently and make data-driven decisions to drive improvement and achieve strategic objectives.

To know more about Key performance indicators

brainly.com/question/28283165

#SPJ11

Answer:

115 Ib/ft^3

Explanation:

To determine the maximum dry density in Ib/ft3 we have to calculate :

Bulk unit weight ( yb ) ; W / v

Dry unit weight ( yd. ) :  yb / ( 1 + w )

For every set of data given

assuming  v = 1/30 ft^3

calculating for the 3 data set ( maximum dry density )

weight of soil (W) = 4.40

moisture content (%) (w) = 15.0 = 0.15

Bulk unit weight (yb) = 4.40 / (1/30)  = 132 Ib/ft^3

Dry unit weight ( yd. ) = 132 / ( 1 + 0.15 ) = 114.702 Ib/ft^3

therefore after calculations the maximum dry density in Ib/ft^3 ≈ 115 Ib/ft^3

Answer:

the angular acceleration of each drum depends on the applied force F. If the force is known, then the angular acceleration can be calculated. If the force is not known, then the angular acceleration cannot be calculated.

Explanation:

To find the angular acceleration of each drum, we can use the equation for rotational dynamics:

\(I * alpha = F * r\)

where I is the moment of inertia of the drum, alpha is the angular acceleration, F is the applied force, and r is the distance from the center of rotation to the point where the force is applied.

In this case, the moment of inertia of each drum is given by:

\(I = mr^2\)

where m is the mass of the drum and r is the radius of gyration. Substituting this expression into the equation above, we get:

\((m * r^2) * alpha = F * r\)

Solving for alpha, we find that:

\(alpha = F * r / (m * r^2)\)

Substituting the given values, we find that the angular acceleration of each drum is:

\(alpha = F * 250 mm / (105 kg * (370 mm)^2)\)

This equation can be simplified to:

\(alpha = F / (7.29 * 105 kg)\)

So the angular acceleration of each drum depends on the applied force F. If the force is known, then the angular acceleration can be calculated. If the force is not known, then the angular acceleration cannot be calculated.

By using building Collapse Indicators helped firefighters when arriving on the scene of a working fire use the exterior marking on a building that indicates the presence of lightweight structural components within.

Moreover, Structural elements that should be considered as indicators of collapse such as unprotected stool columns and beams exposed to heavy fire. The expansion of structural steel is attacked by the heat of fire. Unprotected light steel and steel beam roofs exposed to severe fire. Cracks or bulges in the wall. Water or smoke pushing through what appears to be a solid masonry wall. Unusual sounds coming from a building or dwelling. Truck traffic will notice soft or spongy feet.

You can learn more about this at:

https://brainly.com/question/12290001#SPJ4

Answer:

It's to ensure a driver's safety.

Answer:

No.

Explanation:

\(P_r\) = Power rating = 1 W

R = Resistance = \(350\ \Omega\)

V = Voltage = \(24\ \text{V}\)

Power is given by

\(P=\dfrac{V^2}{R}\\\Rightarrow P=\dfrac{24^2}{350}\\\Rightarrow P=1.65\ \text{W}\)

\(1.65\ \text{W}>1\ \text{W}\)

So

\(P>P_r\)

Hence, the resistor is not operating within its power rating.

Answer:

modulus =3.97X10^6 Ib/in^2, Poisson's ratio = 0.048

Explanation:

The most important lean principle to understand and maximize is "Value Maximization." This principle focuses on identifying what is truly valuable to the customer and continuously improving processes to deliver that value more efficiently and effectively.

Here's a step-by-step explanation:

1. Lean principles are a set of methodologies and practices aimed at reducing waste and increasing efficiency in business processes.

2. One of the key principles of lean is value maximization. This principle recognizes that customers are the ultimate judges of what is valuable and seeks to understand and deliver that value to them.

3. To maximize value, businesses must first identify what is valuable to the customer. This requires listening to customer feedback, conducting market research, and understanding customer needs and expectations.

4. Once businesses have a clear understanding of what is valuable to the customer, they can begin to streamline their operations to deliver that value more efficiently and effectively.

5. Value maximization involves eliminating waste and inefficiencies in all areas of the business, including production, supply chain management, and customer service.

6. By continuously improving processes and eliminating waste, businesses can achieve higher levels of customer satisfaction, increased profitability, and a competitive advantage in the marketplace.

In summary, the most important lean principle to understand and maximize is value maximization, which focuses on identifying and delivering value to the customer through the continuous improvement of business processes.

Know more about the supply chain management click here:

https://brainly.com/question/31978808

#SPJ11

Answer:

i know this one well hypotheticly what if i where to say it was 0 b

Answer:

A sketch is included to show interior designs using a technique called sectioning.

Explanation:

Answer:

transmitter hope thus helped!

Explanation:

Raceway is the answer

"A raceway is an enclosed conduit that forms a physical pathway for electrical wiring."