Archive for month: December, 2023

Running head: LIVING OFF THE GRID

LIVING OFF THE GRID

 

Living Off the Grid: Self-Sustainable Homes

SCI-218: Natural Resources

Ashley R. Dembiczak

25 June 2016

Dr. Nancy Taylor: Southern New Hampshire University

 

The topic I am choosing to write on is a combination of sustainable, organic living and using recycled materials to build a home (green homes). Being able to utilize non-biodegradable recycled materials for home building and sustainable agriculture will greatly help reduce the ecologic footprint of a family. This is better for the Earth in both the short term and long term.

Section 1:

1. The recycled house movement started in the mid 1980s by architect Michael Reynolds (Holladay, 2014). This lifestyle is intended for people wanting to live off the grid.

2. It is important to lead a sustainable lifestyle because it helps promote energy efficiency, waste reduction, air quality, water efficiency, and a sustainable lifestyle (EPA, Feb 2016). With environmental concerns becoming more of an issue in recent years, more and more people are wanting to embrace a green home and sustainable lifestyle.

Section 2:

1. There are currently communities of green homes all over the country and world. In 2014, only 44% of vehicle tires that could be recycled in the U.S. actually were. That leaves 56% of recyclable tires that do not have a purpose (Earthships.com, 2015). Eco-friendly Earthship homes give trash and recyclable materials another purposes and ways to be used.

2. Challenges for green homes of this type are issues with water leakage when it rains and molding of the interior, especially if there is a garden or greenhouse within the home (Archinia.com, 2016). Other challenges with building Earthship-style homes are the time and money needed for construction.

Section 3:

1. In an environment such as San Diego, the Earthship idea would work very well. The average annual rainfall is 9.93 inches according to the San Diego County Water Authority (2016). In other parts of the world, this idea would not be as successful unless substantial modifications are made to the design. This type of green home would not be well suited for a very cold climate nor a very rain-heavy or humid climate unless further developments and modifications could be made.

2. Using recycled materials for homes, where building materials are not common, could help those who cannot afford common building materials create a home. Using materials that may be left in landfills for hundreds of years can also help make our Earth a much cleaner place.

 

Resources

Archinia. (2016). Earthship Pros and Cons. Retrieved from http://www.archinia.com/index.php/58-publications/publications/216-earthship-pros-and-cons

Earthships. (Jan 2015). Once described as ‘idiotic’, new eco-friendly, self-sustaining homes are proving critics wrong. Earthship Biotecture. Retrieved from http://earthship.com/blogs/2015/01/earthship-revolution-us/

Environmental Protection Agency. (Feb 2016). Green Building. U.S. Environmental Protection Agency. Retrieved from https://archive.epa.gov/greenbuilding/web/html/

Holladay, M. (May 2014). Earthship Hype and Earthship Reality. Musings of an Energy Nerd. Green Building Advisor. Retrieved from http://www.greenbuildingadvisor.com/blogs/dept/musings/earthship-hype-and-earthship-reality

 

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• Part Number:	1910
• Part Title:	Occupational Safety and Health Standards
• Subpart:	E
• Subpart Title:	Means of Egress
• Standard Number:	1910.36
• Title:	Design and construction requirements for exit routes.
• GPO Source:	e-CFR

 

 

 

1910.36(a)

Basic requirements.  Exit routes must meet the following design and construction requirements:

1910.36(a)(1)

An exit route must be permanent.  Each exit route must be a permanent part of the workplace.

1910.36(a)(2)

An exit must be separated by fire resistant materials.  Construction materials used to separate an exit from other parts of the workplace must have a one-hour fire resistance-rating if the exit connects three or fewer stories and a two-hour fire resistance-rating if the exit connects four or more stories.

1910.36(a)(3)

Openings into an exit must be limited.  An exit is permitted to have only those openings necessary to allow access to the exit from occupied areas of the workplace, or to the exit discharge. An opening into an exit must be protected by a self-closing fire door that remains closed or automatically closes in an emergency upon the sounding of a fire alarm or employee alarm system. Each fire door, including its frame and hardware, must be listed or approved by a nationally recognized testing laboratory. Section 1910.155(c)(3)(iv)(A) of this part defines “listed” and § 1910.7 of this part defines a “nationally recognized testing laboratory.”

1910.36(b)

The number of exit routes must be adequate.

1910.36(b)(1)

Two exit routes.  At least two exit routes must be available in a workplace to permit prompt evacuation of employees and other building occupants during an emergency, except as allowed in paragraph (b)(3) of this section. The exit routes must be located as far away as practical from each other so that if one exit route is blocked by fire or smoke, employees can evacuate using the second exit route.

1910.36(b)(2)

More than two exit routes.  More than two exit routes must be available in a workplace if the number of employees, the size of the building, its occupancy, or the arrangement of the workplace is such that all employees would not be able to evacuate safely during an emergency.

1910.36(b)(3)

A single exit route.  A single exit route is permitted where the number of employees, the size of the building, its occupancy, or the arrangement of the workplace is such that all employees would be able to evacuate safely during an emergency.

Note to paragraph (b) of this section: For assistance in determining the number of exit routes necessary for your workplace, consult NFPA 101-2009, Life Safety Code, or IFC- 2009, International Fire Code (incorporated by reference, see § 1910.6).

1910.36(c)

Exit discharge.

1910.36(c)(1)

Each exit discharge must lead directly outside or to a street, walkway, refuge area, public way, or open space with access to the outside.

1910.36(c)(2)

The street, walkway, refuge area, public way, or open space to which an exit discharge leads must be large enough to accommodate the building occupants likely to use the exit route.

1910.36(c)(3)

Exit stairs that continue beyond the level on which the exit discharge is located must be interrupted at that level by doors, partitions, or other effective means that clearly indicate the direction of travel leading to the exit discharge.

1910.36(d)

An exit door must be unlocked.

1910.36(d)(1)

Employees must be able to open an exit route door from the inside at all times without keys, tools, or special knowledge. A device such as a panic bar that locks only from the outside is permitted on exit discharge doors.

1910.36(d)(2)

Exit route doors must be free of any device or alarm that could restrict emergency use of the exit route if the device or alarm fails.

1910.36(d)(3)

An exit route door may be locked from the inside only in mental, penal, or correctional facilities and then only if supervisory personnel are continuously on duty and the employer has a plan to remove occupants from the facility during an emergency.

1910.36(e)

A side-hinged exit door must be used.

1910.36(e)(1)

A side-hinged door must be used to connect any room to an exit route.

1910.36(e)(2)

The door that connects any room to an exit route must swing out in the direction of exit travel if the room is designed to be occupied by more than 50 people or if the room is a high hazard area ( i.e. , contains contents that are likely to burn with extreme rapidity or explode).

1910.36(f)

The capacity of an exit route must be adequate.

1910.36(f)(1)

Exit routes must support the maximum permitted occupant load for each floor served.

1910.36(f)(2)

The capacity of an exit route may not decrease in the direction of exit route travel to the exit discharge.

Note to paragraph (f) of this section: Information regarding the “Occupant load” is located in NFPA 101-2009, Life Safety Code, and in IFC-2009, International Fire Code (incorporated by reference, see § 1910.6).

1910.36(g)

An exit route must meet minimum height and width requirements.

1910.36(g)(1)

The ceiling of an exit route must be at least seven feet six inches (2.3 m) high. Any projection from the ceiling must not reach a point less than six feet eight inches (2.0 m) from the floor.

1910.36(g)(2)

An exit access must be at least 28 inches (71.1 cm) wide at all points. Where there is only one exit access leading to an exit or exit discharge, the width of the exit and exit discharge must be at least equal to the width of the exit access.

1910.36(g)(3)

The width of an exit route must be sufficient to accommodate the maximum permitted occupant load of each floor served by the exit route.

1910.36(g)(4)

Objects that project into the exit route must not reduce the width of the exit route to less than the minimum width requirements for exit routes.

1910.36(h)

An outdoor exit route is permitted.

1910.36(h)(1)

The outdoor exit route must have guardrails to protect unenclosed sides if a fall hazard exists;

1910.36(h)(2)

The outdoor exit route must be covered if snow or ice is likely to accumulate along the route, unless the employer can demonstrate that any snow or ice accumulation will be removed before it presents a slipping hazard;

1910.36(h)(3)

The outdoor exit route must be reasonably straight and have smooth, solid, substantially level walkways; and

1910.36(h)(4)

The outdoor exit route must not have a dead-end that is longer than 20 feet (6.2 m).

[FR 67 67962, Nov. 7, 2002; 76 FR 33606, June 8, 2011; 79 FR 76897, Dec. 23, 2014]

 

Next Standard (1910.37)

Regulations (Standards – 29 CFR) – Table of Contents

 

 

 

• Part Number:	1910
• Part Title:	Occupational Safety and Health Standards
• Subpart:	D
• Subpart Title:	Walking-Working Surfaces
• Standard Number:	1910.23
• Title:	Ladders.
• GPO Source:	e-CFR

 

 

1910.23(a)

Application. The employer must ensure that each ladder used meets the requirements of this section. This section covers all ladders, except when the ladder is:

1910.23(a)(1)

Used in emergency operations such as firefighting, rescue, and tactical law enforcement operations, or training for these operations; or

1910.23(a)(2)

Designed into or is an integral part of machines or equipment.

1910.23(b)

General requirements for all ladders. The employer must ensure:

1910.23(b)(1)

Ladder rungs, steps, and cleats are parallel, level, and uniformly spaced when the ladder is in position for use;

1910.23(b)(2)

Ladder rungs, steps, and cleats are spaced not less than 10 inches (25 cm) and not more than 14 inches (36 cm) apart, as measured between the centerlines of the rungs, cleats, and steps, except that:

1910.23(b)(2)(i)

Ladder rungs and steps in elevator shafts must be spaced not less than 6 inches (15 cm) apart and not more than 16.5 inches (42 cm) apart, as measured along the ladder side rails; and

1910.23(b)(2)(ii)

Fixed ladder rungs and steps on telecommunication towers must be spaced not more than 18 inches (46 cm) apart, measured between the centerlines of the rungs or steps;

1910.23(b)(3)

Steps on stepstools are spaced not less than 8 inches (20 cm) apart and not more than 12 inches (30 cm) apart, as measured between the centerlines of the steps;

1910.23(b)(4)

Ladder rungs, steps, and cleats have a minimum clear width of 11.5 inches (29 cm) on portable ladders and 16 inches (41 cm) (measured before installation of ladder safety systems) for fixed ladders, except that:

1910.23(b)(4)(i)

The minimum clear width does not apply to ladders with narrow rungs that are not designed to be stepped on, such as those located on the tapered end of orchard ladders and similar ladders;

1910.23(b)(4)(ii)

Rungs and steps of manhole entry ladders that are supported by the manhole opening must have a minimum clear width of 9 inches (23 cm);

1910.23(b)(4)(iii)

Rungs and steps on rolling ladders used in telecommunication centers must have a minimum clear width of 8 inches (20 cm); and

1910.23(b)(4)(iv)

Stepstools have a minimum clear width of 10.5 inches (26.7 cm);

1910.23(b)(5)

Wooden ladders are not coated with any material that may obscure structural defects;

1910.23(b)(6)

Metal ladders are made with corrosion-resistant material or protected against corrosion;

1910.23(b)(7)

Ladder surfaces are free of puncture and laceration hazards;

1910.23(b)(8)

Ladders are used only for the purposes for which they were designed;

1910.23(b)(9)

Ladders are inspected before initial use in each work shift, and more frequently as necessary, to identify any visible defects that could cause employee injury;

1910.23(b)(10)

Any ladder with structural or other defects is immediately tagged “Dangerous: Do Not Use” or with similar language in accordance with § 1910.145 and removed from service until repaired in accordance with § 1910.22(d), or replaced;

1910.23(b)(11)

Each employee faces the ladder when climbing up or down it;

1910.23(b)(12)

Each employee uses at least one hand to grasp the ladder when climbing up and down it; and

1910.23(b)(13)

No employee carries any object or load that could cause the employee to lose balance and fall while climbing up or down the ladder.

1910.23(c)

Portable ladders. The employer must ensure:

1910.23(c)(1)

Rungs and steps of portable metal ladders are corrugated, knurled, dimpled, coated with skid-resistant material, or otherwise treated to minimize the possibility of slipping;

1910.23(c)(2)

Each stepladder or combination ladder used in a stepladder mode is equipped with a metal spreader or locking device that securely holds the front and back sections in an open position while the ladder is in use;

1910.23(c)(3)

Ladders are not loaded beyond the maximum intended load;

Note to paragraph (c)(3): The maximum intended load, as defined in § 1910.21(b), includes the total load (weight and force) of the employee and all tools, equipment, and materials being carried.

1910.23(c)(4)

Ladders are used only on stable and level surfaces unless they are secured or stabilized to prevent accidental displacement;

1910.23(c)(5)

No portable single rail ladders are used;

1910.23(c)(6)

No ladder is moved, shifted, or extended while an employee is on it;

1910.23(c)(7)

Ladders placed in locations such as passageways, doorways, or driveways where they can be displaced by other activities or traffic:

1910.23(c)(7)(i)

Are secured to prevent accidental displacement; or

1910.23(c)(7)(ii)

Are guarded by a temporary barricade, such as a row of traffic cones or caution tape, to keep the activities or traffic away from the ladder;

1910.23(c)(8)

The cap (if equipped) and top step of a stepladder are not used as steps;

1910.23(c)(9)

Portable ladders used on slippery surfaces are secured and stabilized;

1910.23(c)(10)

The top of a non-self-supporting ladder is placed so that both side rails are supported, unless the ladder is equipped with a single support attachment;

1910.23(c)(11)

Portable ladders used to gain access to an upper landing surface have side rails that extend at least 3 feet (0.9 m) above the upper landing surface (see Figure D-1 of this section);

1910.23(c)(12)

Ladders and ladder sections are not tied or fastened together to provide added length unless they are specifically designed for such use;

1910.23(c)(13)

Ladders are not placed on boxes, barrels, or other unstable bases to obtain additional height.

Figure D-1 — Portable Ladder Set-up

1910.23(d)

Fixed ladders. The employer must ensure:

1910.23(d)(1)

Fixed ladders are capable of supporting their maximum intended load;

1910.23(d)(2)

The minimum perpendicular distance from the centerline of the steps or rungs, or grab bars, or both, to the nearest permanent object in back of the ladder is 7 inches (18 cm), except for elevator pit ladders, which have a minimum perpendicular distance of 4.5 inches (11 cm);

1910.23(d)(3)

Grab bars do not protrude on the climbing side beyond the rungs of the ladder that they serve;

1910.23(d)(4)

The side rails of through or sidestep ladders extend 42 inches (1.1 m) above the top of the access level or landing platform served by the ladder. For parapet ladders, the access level is:

1910.23(d)(4)(i)

The roof, if the parapet is cut to permit passage through the parapet; or

1910.23(d)(4)(ii)

The top of the parapet, if the parapet is continuous;

1910.23(d)(5)

For through ladders, the steps or rungs are omitted from the extensions, and the side rails are flared to provide not less than 24 inches (61cm) and not more than 30 inches (76 cm) of clearance. When a ladder safety system is provided, the maximum clearance between side rails of the extension must not exceed 36 inches (91 cm);

1910.23(d)(6)

For side-step ladders, the side rails, rungs, and steps must be continuous in the extension (see Figure D-2 of this section);

1910.23(d)(7)

Grab bars extend 42 inches (1.1 m) above the access level or landing platforms served by the ladder;

1910.23(d)(8)

The minimum size (cross-section) of grab bars is the same size as the rungs of the ladder.

1910.23(d)(9)

When a fixed ladder terminates at a hatch (see Figure D-3 of this section), the hatch cover:

1910.23(d)(9)(i)

Opens with sufficient clearance to provide easy access to or from the ladder; and

1910.23(d)(9)(ii)

Opens at least 70 degrees from horizontal if the hatch is counterbalanced;

1910.23(d)(10)

Individual-rung ladders are constructed to prevent the employee’s feet from sliding off the ends of the rungs (see Figure D-4 of this section);

1910.23(d)(11)

Fixed ladders having a pitch greater than 90 degrees from the horizontal are not used;

1910.23(d)(12)

The step-across distance from the centerline of the rungs or steps is:

1910.23(d)(12)(i)

For through ladders, not less than 7 inches (18 cm) and not more than 12 inches (30 cm) to the nearest edge of the structure, building, or equipment accessed from the ladders;

1910.23(d)(12)(ii)

For side-step ladders, not less than 15 inches (38 cm) and not more than 20 inches (51 cm) to the access points of the platform edge;

1910.23(d)(13)

Fixed ladders that do not have cages or wells have:

1910.23(d)(13)(i)

A clear width of at least 15 inches (38 cm) on each side of the ladder centerline to the nearest permanent object; and

1910.23(d)(13)(ii)

A minimum perpendicular distance of 30 inches (76 cm) from the centerline of the steps or rungs to the nearest object on the climbing side. When unavoidable obstructions are encountered, the minimum clearance at the obstruction may be reduced to 24 inches (61 cm), provided deflector plates are installed (see Figure D-5 of this section).

Note to paragraph (d): Section 1910.28 establishes the employer’s duty to provide fall protection for employees on fixed ladders, and § 1910.29 specifies the criteria for fall protection systems for fixed ladders.

Figure D-2 — Slide-Step Fixed Ladder Sections.

Figure D-3 — Example of Counterbalanced Hatch Cover at Roof.

Figure D-4 — Individual Rung Ladder.

Figure D-5 — Fixed Ladder Clearances.

1910.23(e)

Mobile ladder stands and mobile ladder stand platforms–

1910.23(e)(1)

General requirements. The employer must ensure:

1910.23(e)(1)(i)

Mobile ladder stands and platforms have a step width of at least 16 inches (41 cm);

1910.23(e)(1)(ii)

The steps and platforms of mobile ladder stands and platforms are slip resistant. Slip-resistant surfaces must be either an integral part of the design and construction of the mobile ladder stand and platform, or provided as a secondary process or operation, such as dimpling, knurling, shotblasting, coating, spraying, or applying durable slip-resistant tapes;

1910.23(e)(1)(iii)

Mobile ladder stands and platforms are capable of supporting at least four times their maximum intended load;

1910.23(e)(1)(iv)

Wheels or casters under load are capable of supporting their proportional share of four times the maximum intended load, plus their proportional share of the unit’s weight;

1910.23(e)(1)(v)

Unless otherwise specified in this section, mobile ladder stands and platforms with a top step height of 4 feet (1.2 m) or above have handrails with a vertical height of 29.5 inches (75 cm) to 37 inches (94 cm), measured from the front edge of a step. Removable gates or non-rigid members, such as chains, may be used instead of handrails in specialuse applications;

1910.23(e)(1)(vi)

The maximum work-surface height of mobile ladder stands and platforms does not exceed four times the shortest base dimension, without additional support. For greater heights, outriggers, counterweights, or comparable means that stabilize the mobile ladder stands and platforms and prevent overturning must be used;

1910.23(e)(1)(vii)

Mobile ladder stands and platforms that have wheels or casters are equipped with a system to impede horizontal movement when an employee is on the stand or platform; and

1910.23(e)(1)(viii)

No mobile ladder stand or platform moves when an employee is on it.

1910.23(e)(2)

Design requirements for mobile ladder stands. The employer must ensure:

1910.23(e)(2)(i)

Steps are uniformly spaced and arranged, with a rise of not more than 10 inches (25 cm) and a depth of not less than 7 inches (18 cm). The slope of the step stringer to which the steps are attached must not be more than 60 degrees, measured from the horizontal;

1910.23(e)(2)(ii)

Mobile ladder stands with a top step height above 10 feet (3 m) have the top step protected on three sides by a handrail with a vertical height of at least 36 inches (91 cm); and top steps that are 20 inches (51 cm) or more, front to back, have a midrail and toeboard. Removable gates or non-rigid members, such as chains, may be used instead of handrails in special-use applications; and

1910.23(e)(2)(iii)

The standing area of mobile ladder stands is within the base frame.

1910.23(e)(3)

Design requirements for mobile ladder stand platforms. The employer must ensure:

1910.23(e)(3)(i)

Steps of mobile ladder stand platforms meet the requirements of paragraph (e)(2)(i) of this section. When the employer demonstrates that the requirement is not feasible, steeper slopes or vertical rung ladders may be used, provided the units are stabilized to prevent overturning;

1910.23(e)(3)(ii)

Mobile ladder stand platforms with a platform height of 4 to 10 feet (1.2 m to 3 m) have, in the platform area, handrails with a vertical height of at least 36 inches (91 cm) and midrails; and

1910.23(e)(3)(iii)

All ladder stand platforms with a platform height above 10 feet (3 m) have guardrails and toeboards on the exposed sides and ends of the platform.

1910.23(e)(3)(iv)

Removable gates or non-rigid members, such as chains, may be used on mobile ladder stand platforms instead of handrails and guardrails in special-use applications.

[39 FR 23502, June 27, 1974, as amended at 43 FR 49744, Oct. 24, 1978; 49 FR 5321, Feb. 10, 1984; 81 FR 82983-82986, Nov. 18, 2016]

 

Next Standard (1910.24)

Regulations (Standards – 29 CFR) – Table of Contents

 

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True or False

1. An environmental impact statement must be filed whenever a business wants to undertake a project that will affect the environment.

2. The “Tragedy of the Commons” is frequently cited to justify the use of the tort law to prevent pollution.

3. Under TSCA, top priority is given to the testing of chemicals on the market when the Act was passed; since the Act’s passage, over 48,000 chemicals have been listed on the EPA’s inventory of toxic substances, and data on toxic effects has been collected for about 90% of these chemicals.

4. Because nuclear power is a clean, nonpolluting source of energy, most environmentalists have given broad support for nuclear energy.

5. Originally, the Acid Rain program focused on NOx levels, and not SO2 levels.

6. Primary Ambient Air Quality Standards protect human health and Secondary Ambient Air Quality Standards protect the environment; the former are more stringent than the latter.

7. The primary focus of the underground storage tank program is on spill prevention.

8. Rivers given a designation under the Wild and Scenic Rivers Act of 1968 are removed from human use.

9. A major problem with international environmental law is its lack of an adequate enforcement mechanism.

10. All proposed and final rules being promulgated by a regulatory agency must be published in the Federal Register.

11. Under the National Pollution Discharge Elimination System, the amount of emissions allowed by a permit are determined by the type of pollutant, the type of discharger, and whether the source is existing or new.

12. The ranking system used to place sites on the National Priorities List is based on relative risk to human health and the environment, rather than actual risk.

13. The primary goal of NEPA was to reform agency decision-making so that environmental concerns would be taken into account.

14. From environmentalists’ perspective, one of the most important Constitutional rights is the right to a clean environment.

15. The court has traditionally interpreted the commerce clause broadly, so that most environmental regulations are considered a valid exercise of commerce clause authority.

_ 16. In general, a state may pass an environmental regulation that sets standards more stringent than those set by federal regulations.

. 17. The EPA was created in 1960, and is the largest federal agency operating today.

18. Pollution from nonpoint sources is easier to control than pollution from point sources because it’s difficult to convince polluters to purchase and install expensive pollution control devices.

19. One of the TSCA’s functions is to regulate the introduction of new chemicals into the market.

20. The range of chemicals regulated under CERCLA is the same as that regulated under RCRA.

21. Because nuclear energy does not produce carbon emissions, it is considered a renewable source of energy

22. Bills that are passed by the United States Congress and then signed by the United States President become statutes, which can be found in the U. S. Code; the National Environmental Policy Act is an example of such a federal statute.

23. Subject matter jurisdiction determines whether a case is heard in state or federal court.

24. Primary Ambient Air Quality Standards protect human health and Secondary Ambient Air Quality Standards protect the environment; the former are more stringent than the latter.

25. International environmental law is made up of both customary and conventional law; the former is analogous to common law and the latter is formed by treaties.

 

 

 

 

Multiple Choice

 

1. The RCRA regulates

 

a. hazardous waste

b. non-hazardous waste

c. municipal waste

d. all of the above

 

2. The Safe Drinking Water Act establishes drinking water standards that are applicable to

 

a. bottled water.

b. municipal water supply systems.

c. private wells.

d. all of the above.

 

3. The United States can affect other countries’ environmental policies by

 

a. sharing our research.

b. linking financial aid to environmentally sound projects.

c. entering into treaties with other countries to preserve specific aspects of the environment.

d. all of the above.

 

4. Which of the following is not considered one of the threshold issues that must be met before one can bring a lawsuit?

 

a. standing.

b. ripeness.

c. case or controversy.

d. none of the above (all must be present).

 

5. Who of the following was an administrator of the EPA during the second Bush administration?

 

a. Christine Whitmire.

b. Stephen Johnson.

c. Both a and B.

d. none of the above.

 

6. FIFRA

 

a. prohibits the introduction of new chemicals into the market.

b. requires that all pesticides sold in the U. S. be registered for either general or restricted use.

c. requires that all pesticides manufactured in the U. S. be registered for general or restricted use.

d. both b and c.

 

7. Which of the following are benefits of wetlands?

 

a. Wetlands provide food and habitat for many species.

b. Wetlands help control shoreline erosion.

c. Wetlands help improve the quality of drinking water.

d. All of the above.

 

8. All rules made by administrative agencies must be

 

a. published as proposed rules in the Federal Register.

b. published as final rules in the Federal Register at least 30 days before they are to go into effect.

c. both a and b.

d. neither a nor b.

 

9. Which of the following is not contained in the EIS?

 

a. a statement of any adverse negative environment impacts that cannot be avoided if the proposal is carried out.

b. alternatives to the proposal, including taking no action.

c. both a and b.

d. none of the above.

 

10. Which of the following is not a conventional air pollutant?

 

a. ozone.

b. sulfur dioxide.

c. both a and b (neither is a conventional pollutant).

d. none of the above (both are conventional pollutants).

 

11. Acid rain

 

a. would not exist in the absence of man-made emissions of sulfur.

b. occurs only in industrialized areas.

c. is a difficult problem to solve because there is a lack of agreement as to the severity of the problem, the best way to solve the problem, and what ph level warrants the designation acid rain.

d. none of the above.

 

12. A case challenging a statute as violating a person’s rights under the U. S. Constitution.

 

a. must be heard in a state court.

b. must be heard in a federal court.

c. may be heard in either state or federal court.

d. must be heard in the U. S. Court of Claims.

 

13. Potential sources of contamination of groundwater do not include:

 

a. home septic tank systems.

b. hazardous waste land disposal facilities.

c. underground storage tanks.

d. none of the above.

 

14 The source of authority for most federal environmental laws is

 

a. the Commerce Clause.

b. the Contract Clause.

c. the Fifth Amendment.

d. Article III.

 

15. Substances regulated under the Montreal Protocol do not include

 

a. CFCs.

b. methyl bromide.

c. halons.

d. none of the above.

 

16. Which of the following is not a characteristic of toxic substance regulated under TSCA?

 

a. Tendency to bioaccumulate.

b. Extremely low dosages may have harmful effects.

c. Harmful effects may not show up for a long time.

d. None of the above.

 

 

17. One does not look in the Federal Register to find

 

a. proposed rules.

b. final rules.

c. statutes.

d. any of the above.

 

18. A waste will be considered hazardous under the RCRA if

 

a. it is included on one of the EPA’s three lists of hazardous wastes.

b. it has the characteristics of toxicity, ignitability, corrosivity, or reactivity.

c. both a and b.

d. none of the above.

 

19. Which of the following is not required by the federal underground storage tank regulations?

 

a. All tanks must have spill and overflow protection.

b. Tanks that store hazardous substances must have extra protection against hazardous substance release such as a double-walled tank or external liner.

c. Failure to meet the new standards by 2000 may result in fines of up to $10,000 per tank.

d. None of the above.

 

20. Which of the following is not considered a source of renewable energy?

 

a. wind energy.

b. biomass energy.

c. solar energy.

d. none of the above.

 

 

21. Which of the following was not designed to protect wetlands, coastal areas, or estuaries?

 

a. The Wild and Scenic Rivers Act.

b. The Coastal Zone Management Act.

c. The “No-Net-Loss” Policy.

d. Section 404 of the Clean Water Act.

 

 

 

22. Which is not a factor that may cause a species to become endangered?

 

a. destruction of its habitat.

b. disease.

c. overutilization for commercial purposes.

d. none of the above.

 

23. Which President is considered to be the first who worked toward a comprehensive national energy policy?

 

a. Woodrow Wilson.

b. Franklin D. Roosevelt.

c. Richard Nixon.

d. Gerald Ford.

 

24. Which of the following duties is not imposed on nations regarding transboundary pollution?

 

a. to inform other nations of accidents that might cause transboundary harm.

b. to enter into a convention to determine how to handle the situation.

c. both a and b (neither duty is imposed).

d. none of the above (both duties are imposed).

 

25. Which of the following was not one of the early acts designed to protect the water quality?

 

a. the Rivers and Harbors Act of 1899.

b. the Public Health Service Act of 1912.

c. the Oil Pollution Act of 1924.

d. none of the above.

 

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