what are the finite states present in a properly operating elevator?

Answer:

it is not water

Answer:

The correct answer would be a) Engineering Controls.

Explanation:

If the controls are handled correctly, you can reduce and eliminate hazards so no one gets hurt. Engineering controls are absolutely necessary to prevent hazards.

Hope this helped! :)

Personal  protective equipment (PPE) is appropriate for controlling hazards

PPE are used for exposure to hazards when safe work practices and other forms of administrative controls cannot provide sufficient additional protection, a supplementary method of control is the use of protective clothing or equipment. PPE may also be appropriate for controlling hazards  while engineering and work practice controls are being installed.

Find out more on Personal  protective equipment at: https://brainly.com/question/13720623

Answer:

maximum speed for safe vehicle operation = 55mph

Explanation:

Given data :

radius ( R ) = 678 ft

old building located ( m )= 30 ft

super elevation = 0.06

Determine the maximum speed for safe vehicle operation

firstly calculate the stopping sight distance

m = R ( 1 - cos \(\frac{28.655*S}{R}\) )  ----  ( 1 )

R = 678  

m ( horizontal sightline ) = 30 ft

back to equation 1

30 = 678 ( 1 - cos (28.655 *s / 678 ) )

( 1 - cos (28.655 *s / 678 ) )  = 30 / 678 = 0.044

cos \(\frac{28.65 *s }{678}\)  = 1.044

hence ; 28.65 * s = 678 * 0.2956

s = 6.99 ≈ 7 ft

next we will calculate the design speed ( u ) using the formula below

S = 1.47 ut  + \(\frac{u^2}{30(\frac{a}{3.2} )-G1}\)  ----  ( 2 )

t = reaction time,  a = vehicle acceleration, G1 = grade percentage

assuming ; t = 2.5 sec , a = 11.2 ft/sec^2, G1 = 0

back to equation 2

6.99 = 1.47 * u * 2.5 + \(\frac{u^2}{30[(11.2/32.2)-0 ]}\)

3.675 u  + 0.0958 u^2 - 6.99 = 0

u ( 3.675 + 0.0958 u ) = 6.99

Answer:

The gage and absolute pressures are 900 and 1001 kilopascals, respectively.

Explanation:

The gage pressure (\(P_{g}\)), in kilopascals, is the difference between absolute (\(P_{abs}\)) and atmospheric pressures (\(P_{atm}\)), measured in kilopascals. If we know that \(P_{g} = 900\,kPa\) and \(P_{atm} = 101\,kPa\), then the gage and absolute pressures are, respectively:

\(P_{g} = 900\,kPa\)

\(P_{abs} = P_{atm} + P_{g}\)

\(P_{abs} = 101\,kPa + 900\,kPa\)

\(P_{abs} = 1001\,kPa\)

The gage and absolute pressures are 900 and 1001 kilopascals, respectively.

Answer:

Creating an app is both an expression of our self and a reflection of what we see is missing in the world. We find ourselves digging deep into who we are, what we would enjoy working on, and what needs still need to be fulfilled. Generating an app idea for the first time can be extremely daunting. Especially with an endless amount of possibilities such as building a church app.

The uncertainty has always spawned a certain fear inside creators. The fear of creating something no one will enjoy. Spending hundreds of dollars and hours building something which might not bring back any real tangible results. The fear of losing our investment to a poor concept is daunting but not random. But simple app ideas are actually pretty easy to come by.

Great app idea generation is not a gift given to a selected few, instead, it is a process by which any of us are able to carefully explore step by step methods to find our own solution to any problem. Whether you are a seasoned creator or a novice, we have provided a few recommendations to challenge and aid you as you create your next masterpiece.

if I am right then make me brainliest

Answer:

FLIES is one of them. ELF, TICK, SICK, LICK, SELF, prolly more but I'm to lazy to find them.

Answer:

V= 90h cm³ where h is the height of the rectangular prism.

Explanation:

The formula for volume of a rectangular prism is ;

V=l*w*h  where;

V=volume in cm³

l= length of prism=10cm

w =width of the prism = 9 cm

Assume the height of the prism as h cm then the volume will be;

V= 10* 9*h

V= 90h cm³

when the value of height of the prism is given, substitute that value with h to get the actual volume of the prism.

Answer:

Lack of fluid oil – lack of fluid oil in your vehicle, or a fluid leakage, can lead to heavy steering. If there is a lack of fluid oil, or a leak, this can reduce the pressure in the system, meaning the steering wheel does not receive enough supply of fluid to perform freely.

a. The value of the expression is Vbt. b. the depletion width is the same as the equilibrium depletion width. c. The maximum electric field at the edges of the depletion region can be approximated  |εmax| = |q * Nd * W / ε|.

(a) The built-in voltage (Vbt) of a p-n junction can be calculated using the formula:

Vbt = (k * T / q) * ln(Nd * Na / ni^2)

Where k is the Boltzmann constant (1.38 x 10^-23 J/K), T is the temperature in Kelvin (300 K in this case), q is the elementary charge (1.6 x 10^-19 C), Nd and Na are the doping concentrations of the n and p regions respectively, and ni is the intrinsic carrier concentration of silicon.

Given Nd = 10^15 * c * m^-3 and Na = 5 * 10^16 * c * m^-3, we need to determine the value of ni. At room temperature (300 K) for silicon, ni is approximately 1.45 x 10^10 cm^-3.

Converting the doping concentrations to cm^-3, we have Nd = 10^15 * 10^6 cm^-3 and Na = 5 * 10^16 * 10^6 cm^-3.

Substituting the values into the formula, we get:

Vbt = (1.38 x 10^-23 J/K * 300 K / 1.6 x 10^-19 C) * ln((10^15 * 10^6 cm^-3) * (5 * 10^16 * 10^6 cm^-3) / (1.45 x 10^10 cm^-3)^2)

Calculating this expression gives us the value of Vbt.

(b) The depletion width (W) of the p-n junction under reverse bias can be approximated using the formula:

W = sqrt((2 * ε * Vbi) / (q * (1 / Nd + 1 / Na)))

Where ε is the permittivity of silicon (approximately 11.8 x 8.85 x 10^-14 F/cm), and Vbi is the built-in voltage calculated in part (a).

For reverse bias, we can consider two cases:

(i) VR = 0 V: In this case, the reverse bias voltage is 0, resulting in no additional depletion width. Therefore, the depletion width is the same as the equilibrium depletion width.

(ii) VR = 5 V: Substituting VR = 5 V and the calculated Vbi into the formula, we can determine the depletion width W.

(c) The maximum electric field (|εmax|) at the edges of the depletion region can be approximated using the formula:

|εmax| = |q * Nd * W / ε|

Using the calculated values of Nd, W, and ε, we can determine |εmax| for both cases (i) and (ii) in part (b).

Please note that for more accurate calculations, additional considerations and adjustments might be required, such as the effect of the potential barrier and the doping profiles.

Learn more about equilibrium here

https://brainly.com/question/517289

#SPJ11

Yes, that is a correct description of the spray drying process. Spray drying is a widely used industrial process for transforming liquid materials into dry powders or granules.

What is spray drying?

Spray drying is a continuous process that can be performed at high volume and high efficiency.

It is also a flexible process that can be customized for different feedstocks and product specifications.

However, it can also be a complex process that requires careful control of operating parameters to achieve the desired product quality and yield.

The spray drying process typically involves the following steps:

The liquid feedstock can be a solution, suspension, or emulsion, and the resulting dried product can have a wide range of applications in industries such as food, pharmaceuticals, ceramics, and chemicals.

To know more about centrifugal disk, visit: https://brainly.com/question/13259103

#SPJ1

Answer:

1) This is because too much fuel is needed to get a payload from the surface to orbital altitude an accelerated to orbital speed.

2) This is because space travel present extreme environment that affect machines operations and survival.

Explanation:

Hope it helps

sen yapsana mk halla halla yaw

Answer: decrease; increase; increase

Explanation:

Digital signals are simply referred to as time separated signals that can be generated when digital modulation is being used.

a. Increasing the time between samples

It should be noted that when there is increase in the time between samples, the accuracy of the digital signal becomes more defined. In order for the time between sample to be increased, the quality of the digital signal will have to be reduced.

b. Increasing the number of bits in each sample

There's increase in the level of quantization as the number of bits in every sample rises. The increase in the level of quantization reduces the noise which in turn, leads to a rise in the signal quality.

Therefore, increasing the number of bits in each sample increase the quality of the digital signals.

c. Increasing the sampling frequency.

There's reduction in time interval between the samples as the sampling frequency rises. Therefore, the increase in the sampling frequency increase the quality of the digital signals.

a. The bandwidth occupied by a resource block depends on the specific cellular network technology and configuration. b. The bandwidth occupied by a resource element is typically a fraction of the resource block's bandwidth and varies based on the modulation and coding scheme employed.

a. ) The bandwidth occupied by a resource block varies depending on the cellular network technology being used. In Long Term Evolution (LTE) networks, a resource block typically occupies 180 kHz of bandwidth. However, it's important to note that different cellular network standards, such as 5G, may use different bandwidth allocations for resource blocks. Therefore, the specific bandwidth occupied by a resource block can vary based on the network configuration and deployment. b.) A resource block consists of multiple resource elements, and each resource element represents a smaller unit of bandwidth within the resource block. The bandwidth occupied by a resource element depends on the modulation and coding scheme (MCS) being used. Higher MCS values typically result in more bits being transmitted per resource element, effectively occupying a larger bandwidth. Conversely, lower MCS values result in fewer bits being transmitted per resource element, occupying a smaller bandwidth. The exact bandwidth occupied by a resource element can be calculated by dividing the overall bandwidth of the resource block by the number of resource elements it contains. In summary, the bandwidth occupied by a resource block depends on the specific cellular network technology, while the bandwidth occupied by a resource element varies based on the modulation and coding scheme employed within that resource block. The specific values for these bandwidth allocations may differ depending on the network technology and deployment scenario.

learn more about bandwidth here:

https://brainly.com/question/30337864

#SPJ11

the maximum height h to which the the water steam could rise is 40.65m.

/ρg + /2g +  = /ρg + /2g +

/ρg +  = /ρg +

= ( - )/ρg +

Substituting values into  we have,

#SPJ4

Sorry sir i don't know the answer

The covers and guardrails are required in all of the following areas except ditches.

Yes, they do need a covers and/or guardrails and it is one that is known or shall be provided to help in the protection of personnel from the hazards that pertains to open pits, tanks, vats and others.

Note that they are often needed that is covers and/or guardrails need to be provided to help to protect personnel.

Therefore, The covers and guardrails are required in all of the following areas except ditches.

Learn more about guardrails from

https://brainly.com/question/12757849

#SPJ1

Answer:

Top Final year projects for civil engineering students

• Geographic Information System using Q-GIS. ...

• Structural and Foundation Analysis. ...

• Construction Project Management & Building Information Modeling. ...

• Tall Building Design. ...

• Seismic Design using SAP2000 & ETABS.

Explanation:

Hope it's help

Answer: B the first person to propose the heliocentric model of the solar system was Nicolaus Copernicus

Explanation:

Once the driver/operator has successfully completed the preliminary activities and ensured that the ground is adequately prepared for stabilization activities, the selector valve can be operated to initiate the next phase of the process. This typically involves the following steps:

1. Divert the flow of hydraulic fluid: The selector valve directs the hydraulic fluid to specific components within the stabilization system, enabling them to function properly.
2. Engage the outriggers or stabilizers: The valve's operation allows the outriggers or stabilizers to be extended and positioned, ensuring a secure and stable foundation for the vehicle or equipment.
3. Control the leveling process: By operating the selector valve, the driver/operator can control the leveling system, which adjusts the vehicle or equipment's position to maintain an even and balanced surface during stabilization activities.
4. Enable weight distribution: The selector valve also plays a crucial role in distributing weight evenly across the stabilizers or outriggers, ensuring optimal stability and safety throughout the operation.
5. Monitor and adjust: Throughout the stabilization process, the driver/operator can use the selector valve to make any necessary adjustments, ensuring that the ground remains stable and secure.

For such more question on driver/operator

https://brainly.com/question/14276851

#SPJ11

Answer:

Both Technician A and B are correct

Explanation:

Methanol is used in internal combustion engines. However, the use of methanol in internal combustion engines has decreased lately even though it was thought to lead to cleaner emissions than gasoline. Methanol internal combustion engines produce formaldehyde which is also an environmental pollutant. Also, the cost of methanol is slightly higher than that of good quality gasoline.

MTBE replaced tetraethyllead as a gasoline additive because the former lead to the emission of particulate lead from automobile exhausts which is a serious environmental pollutant. The use of MTBE has declined over the years due to environmental concerns. It has been banned because it has been found to be a significant groundwater pollutant if gasoline containing MTBE is spilled or leaked at gas stations.

Answer:

1.887 minutes

Explanation:

We are given k = 0.07 dm3 /mol*min at 300 K and E = 20 kcal/mol = 20000 cal/mol

To solve this, first of all let's calculate the rate constant(k);

For this question, The formula is;

K(t) = k(300K) × exp[(E/R)((1/300) - (1/T2))]

R is gas constant = 1.987 cal/mol.K

For temperature of 70°C which is = 70 + 273K = 343K, we have;

K(343) = 0.07 × exp[(20000/1.987)((1/300) - (1/343))]

K(343) = 4.7 dm³/mol.min

The design equation is;

dX/dt = -(rA/C_Ao) = K•(C_Ao)²•(1 - X)²/(C_Ao) = (KC_Ao)(1 - X)²

Since there is no change in volume by cause of the state at which the reaction is carried out, that is liquid. Thus, integrating and solving for time for a 90% conversion we obtain;

(0.9,0)∫dX/(1 - X)².dX = (KC_Ao)((t, 0)∫dt

So, we'll get;

0.9/(1 - 0.9) = 4.77 × 1 × t

t = 9/4.77

t = 1.887 minutes

Answer:

  Put a 10.0-ohm resistor in the circuit. Measure the current in the circuit. Replace the 10.0-ohm resistor with a 20.0-ohm resistor. Measure the new current. Continue replacing the resistor with a different resistor of known resistance. Measure the current for each resistor. Record all data.

Explanation:

The only design that has resistance varying with everything else remaining the same is the first design. That would be what you'd want to do if you're exploring the effect of resistance on current.

The time taken is t = 259.04 sec will it take the transformation to go to 90% completion.

Johnson Mehl Avrami developed the Avrami equation, which is used to explain how crystalline solids change from one phase to another while maintaining a constant temperature. At constant temperature, solids change from one phase to another according to the Avrami equation. It can be applied broadly to various phase shifts in materials, such as chemical reaction rates, and can even be useful in assessments of ecological systems. It can particularly characterize the kinetics of crystallization. The Avrami equation gives us Y= 1 - e - Ktn, where Y = 50% T. Time of reaction completion is 148 seconds, and n = 1.8 is obtained by multiplying all values by 1. K \s 0.5=1- e^{-K*148^1.8} \s e^{-K*148^1.8} = 0.5

Taking both sides of the log

-K*148^{1.8} = -0.693 \s

K=8.59 * 10-5,

GIVEN THAT

0.85 = 1 - e

^{- 8.59 * 10^{-5} *t^1.8} \s e^{- 8.59 * 10^{-5} *t^1.8}

= 0.15

Taking the log on both sides: 8.59 x 10-5 t, t

= 259.04 sec,

t = -1.897 s

Learn more about system here-

https://brainly.com/question/19770086

#SPJ4

False, competence refers to speakers' tacit, unconscious knowledge of grammar.

Competence refers to speakers' underlying knowledge and ability to use a language, which includes both conscious and unconscious knowledge of grammar.

Even if the speaker is unable to explicitly state the rules, it includes their innate sense of what is or is not grammatically correct.

This ingrained understanding is frequently referred to as "linguistic competence," which is separate from "performance," which refers to the actual use of language in settings that might be influenced by things including memory impairment, speech impediments, and situational considerations.

Learn more about competence at: https://brainly.com/question/30689973

#SPJ4

Answer:

Using regional materials creates a sustainable program that breaks countries’ dependencies on other nations.

Explanation:

i did the assignment

Answer:

Using regional materials creates a sustainable program that breaks countries’ dependencies on other nations.

Explanation:

C

Tech A says that broken or worn powertrain mounts can cause a transaxle to have shifting problems. Tech B says that poor shift boot alignment cannot cause a transaxle to jump out of gear.

Who is correct?Tech A and Tech B are both correct on their own sides. Allow me to explain. Tech A is correct in stating that a damaged or worn-out powertrain mount can cause transaxle shifting problems, and this is one of the most common causes of such problems. Powertrain mounts are responsible for holding the powertrain (the engine, transmission, and axles) in place, and if one or more of these mounts fails, the powertrain will move around, leading to abnormal vibrations, noise, and shifting issues.

Tech B, on the other hand, is also correct in saying that a poor shift boot alignment cannot cause a transaxle to jump out of gear. While it is true that a poorly aligned shift boot can be an annoyance, it cannot cause a transaxle to jump out of gear by itself. In fact, this problem is more likely due to wear or damage to the synchros, shift forks, or shift linkage. A poorly aligned shift boot can, however, cause other problems, such as dirt or debris getting into the shift mechanism and causing wear or damage to various components.To summarize, Tech A is right in that a damaged or worn-out powertrain mount can cause transaxle shifting problems, while Tech B is correct in that a poorly aligned shift boot cannot cause a transaxle to jump out of gear.

To know more about broken visit:
https://brainly.com/question/21844693

#SPJ11

marialyn

Explanation:

pangalang ng crush ko

sana maging crush nya rin ako

sana

crush nya kasi yung buwisit na toper na yun

Answer:A

Explanation:

Those who want to save money and will use the product for only a few years

Answer:

THE ANSWER is A - those who want to save money and will use the product for only a few years

Explanation: Got it right on edg 2021