Ergonomics is the science of designing work processes and equipment in a workstation to make employees comfortable and increase their productivity. Ergonomics is important because when you're at work and your body is in stressful situations like improper posture, extreme temperature, or repeated movements, your musculoskeletal system is affected which results in lower productivity.
Sitting in the same position for long periods of time and squinting are not good ergonomic practices. Sam using a power screwdriver to avoid repetitive motions is a good ergonomic practice.
The good ergonomic practice is Sam using a power screwdriver to avoid repetitive motions, which helps prevent repetitive strain injuries. Good ergonomics also emphasize maintaining proper posture and making adjustments to workstations, such as the monitor position, to reduce strain.
Explanation:The statement that indicates good ergonomic practice is: Sam uses a power screwdriver to avoid repetitive motions. Good ergonomics involve the design of equipment and workspaces to fit the user's needs, enhance comfort, and prevent strain or injury. Taking measures such as using a power screwdriver can minimize the risk of repetitive strain injuries, which are common in occupations that require repetitive tasks.
Good ergonomic practices also include maintaining good posture by ensuring the center of gravity lies directly above the pivot point in the hips to avoid back strain and damage to disks. This helps address the issue that most people now spend several hours a year sitting still, often in front of a screen, which can lead to poor posture and associated health problems.
For someone like Therese, who is squinting at a computer monitor, ergonomic adjustments might include increasing text size or improving the monitor's position to reduce eye strain. Lastly, sitting in the same position for long periods, as Gina does, is a poor ergonomic practice that can lead to discomfort and long-term musculoskeletal issues.
the preservation technique that attempts to remove moisture is
The preservation technique that attempts to remove moisture is dehydration or drying of foods. Many types of food such as meat, fish are preserved for an unlimited period by removing the moisture. This way, the growth of microorganisms in the food is hindered. Dehydration is one of the oldest methods of food preservation. Equipment such as cabinet driers and vacuum driers are used in dehydration.
Desiccation, or drying, is a preservation technique that attempts to remove moisture. It controls microbial growth and prevents spoilage in foods.
Explanation:Drying, also known as desiccation or dehydration, is a preservation technique that attempts to remove moisture. It can be achieved through methods such as sun drying, freeze-drying, or the addition of salt or sugar to decrease water activity in foods. Desiccation works by controlling microbial growth and preventing spoilage.
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Down syndrome is also known as trisomy-21 because individuals with down syndrome ____.
A regulatory system in your body that reinforces a change and drives it to a conclusion is called
During metaphase of meiosis i, homologous chromosomes and the alleles they possess are distributed to different gametes. what is this called?
Question 19 of 20 Discuss the relationship between mitosis and cytokinesis
Why is evolution so central to every aspect of biology g?
Help i do not understand this plllleeeaaassseee
why are bacteria and archaea placed in seprate kingdoms
Describe the differences you see in the three types of muscle tissues hbs
Skeletal muscle is a muscle tissue used when running a marathon or blinking the eyes and formation of skeletal muscle comes from action and myosin muscle fibers. Smooth muscle are found in the wall of internal organs such as intestine and stomach. Contraction of the smooth muscle enable the organs to performs their function while cardiac muscle is commonly found in the wall of the heart. The contraction of the cardiac muscle enable the heart to beats and pumps blood.
The lining of the stomach and intestine is protected from strong acid by
Select each correct answer. More than one answer may be correct.
The components of the human body, from organ systems to cell organelles, interact to maintain a balanced internal environment. To successfully accomplish this task, organisms possess many different receptors that detect deviations in the body's internal state and initiate corrective actions.
In which of the following ways does the body respond to an increase in skeletal muscle cell activity?
by converting white bloods cells to red blood cells
by increasing the heart rate
by increasing the respiratory rate
by producing less hemoglobin
The correct answer is by increasing the rate of respiration and heart rate.
The conditions in the body are monitored, to maintain a steady internal environment. This is known as homeostasis. The conditions, which must be monitored, include water content, the temperature of the body, level of carbon dioxide, and blood sugar level.
Homeostasis is the sustenance of the steady internal environment. Automatic control systems all through the body maintain water and temperature at constant levels that are needed for the cells to work adequately.
Answer:
if it on study island it would be
by increasing the respiratory rate
by increasing the heart rate
Explanation:
study island said:
Feedback mechanisms allow the body to maintain homeostasis. For example, the body responds to an increase in skeletal muscle cell activity by increasing the heart rate and respiratory rate.
Increasing the heart rate allows oxygenated blood to be delivered to muscle tissue at a faster rate, while increasing the respiratory rate allows the carbon dioxide produced during cellular respiration to be eliminated more quickly from the body.
Which of the following hormones is responsible for the maturation process in the ovarian follicles and for stimulating the development of corpus luteum in a female
He atoms surrounding an edge dislocation experience what kind(s) of strain(s)?
An edge dislocation of atoms experience tensil, shear and compressive strains. Moreover, tensile strain produce a direct stresses and compressive strain produce in a body when two equal and opposite forces try to compress the body. Meanwhile, shear strain is produce under a shear stress where the body displace transversely from its original position.
Final answer:
Atoms surrounding an edge dislocation experience strain due to the extra half-plane's distortion of the crystal lattice. This leads to compression above and tension below the slip plane, contributing to various types of strain and understanding plastic deformation by slip.
Explanation:
The atoms surrounding an edge dislocation experience various forms of strain due to the disruption of the normal lattice structure. For a positive edge dislocation, the presence of the extra half-plane causes atoms above the dislocation to be put in compression, while those below the slip plane are in tension. This condition creates a stress field around the dislocation, where the stress is compressive above the slip plane and tensile below it. The strains experienced include the strain caused by the increase or reduction of bond angles, the strain due to eclipsing bonds on adjacent atoms, and the strain caused by the repulsive interactions among atoms attempting to occupy the same space. This phenomenon is fundamental in understanding the process of plastic deformation by slip, where blocks of crystal slide over each other due to dislocation motion under stress, without requiring the simultaneous breaking and reforming of all bonds along a plane.
Where does carbon come from in a winogradsky column? 2. why is carbon important? 3. what purpose does calcium sulfate serve in the winogradsky column? 4. why is a hydrogen sulfide gradient generated from bottom to top in a winogradsky column? 5. how is photosynthesis different between cyanobacteria (growing at the top of the column) and green and purple sulfur bacteria (growing near the bottom 1/3 of the column)?
Answer:
1.The Winogradsky section is a straightforward gadget for refined an enormous decent variety of microorganisms.The gadget is a segment of lake mud and water blended in with a carbon source, for example, paper which contains cellulose, darkened marshmallows or egg-shells which contains calcium carbonate.
2. carbon is important for providing cellulose for winogradsky column.
3.calcium sulphate in the form of gypsum or plaster of paris, craft or garden stores is used. green suphur bacterias and purple sulphur bacterias are formed after 2 to 6 weeks.
4.A hydrogen sulfide slope is created from the base to top in a Winogradsky section since sulfur-decreasing microorganisms like Desulfovibrio (microbes that utilizes maturation side-effects like Ethanol and Organic acids from Clostridium as a carbon source by means of anaerobic breath) produce a lot of H2S as a result of anaerobic breath. The H2S gradually diffuses upwards and is utilized by different life forms. The explanation the angle is higher at the base is on the grounds that anaerobic microscopic organisms like Desulfovibrio can't endure where O2 is available. The further down in a Winogradsky section the more anaerobic the earth. Along these lines, bigger measures of H2S are created at base of segment in light of the fact that there is a higher grouping of anaerobic microorganisms that produce H2S at the base as side-effect of their anaerobic breath process
5.Rather than utilizing water to photosynthesize, similar to plants and cyanobacteria, purple sulfur microscopic organisms use hydrogen sulfide as their decreasing operator, which is the reason they radiate sulfur as opposed to oxygen.
Explanation:
What happens when you mix vinegar and baking soda?
how does the presence of coal on antarctica indicates of coal on antarctica indicate a climate change
A) the discovery of a new coal deposit means people will be able to use this fossil fuel longer
B)coal deposits can tell scientist with the composition of the atmosphere was in the past
C)coal is burned for a fuel and releases carbon dioxide into the atmosphere
D) coal forms from the remains of plants that lived in tropical swamps millions of years ago
What is the total number of chromosomes in the daughter cells after mitosis?
what caused the mass extinction of the permian period
The leading hypothesis for the Permian extinction includes massive volcanic activity causing global warming and anoxic conditions, with further speculations on asteroid impacts and climate changes due to glaciation and warming.
Explanation:The Permian extinction, occurring at the end of the Paleozoic Period, was the largest mass extinction on Earth, with drastic biodiversity losses both in the oceans and on land. Leading hypotheses for this cataclysmic event suggest that extended volcanic activity, which may have led to a runaway global-warming event, played a key role. This volcanic activity spewed enough basaltic lava, particularly in Siberia, to potentially induce severe warming, anoxic oceans, and a subsequent collapse of marine and terrestrial ecosystems.
Additionally, other speculations include asteroid impacts, similar to the one at the end of the Cretaceous period, and rapid climate changes caused by oscillations between glaciation and warming phases. These tumultuous conditions not only obliterated an estimated 96 percent of marine species and 70 percent of terrestrial species but also set the stage for the rise of new life forms in the Mesozoic Era, including the dinosaur's evolutionary lineage.
People of all eras have at one point or another referred to "the good old days." if you could go back in time and live in any era, when and where would it be
The 1950s in America were marked by economic growth and cultural development but also by social inequality and political tension, showcasing the era's complex dual nature of prosperity and challenge.
Explanation:Many people nostalgically reference "the good old days" when considering past historical eras. The 1950s in America are often remembered as a time of economic prosperity, political stability, and burgeoning cultural movements. However, this decade also presented significant social challenges and inequalities. While the post-World War II period saw significant industrial growth and the emergence of the middle class, there were also profound issues of racial segregation, gender inequality, and civil rights struggles. Tensions were heightened due to the Cold War and the fear of nuclear conflict. Women, minorities, and other marginalized groups faced systemic discrimination and fewer opportunities compared to their white, male counterparts. Therefore, the 1950s could be seen as a period of prosperity for some, but one of challenge and strife for others.
Bird wings and dragonfly wings are both used for flight is it homologous structure or analogous structure
Answer:
✔ Analogous structure
Bird wings and dragonfly wings are both used for flight.
✔ Homologous structure
Clams and snails both have similar muscle structure even though the muscles do different jobs.
✔ Homologous structure
Human and giraffe necks both have 7 vertebrae because we are related.
✔ Homologous structure
The flaps of a Venus flytrap have a similar makeup to oak leaves.
Analogous structures, unlike homologous structures, originated in response to a similar environmental challenge and are similar in function but not structure. Therefore, Bird wings and dragonfly wings are both analogous.
What are analogous structure?In contrast to homologous structures, analogous structures are characteristics of different species that have evolved in response to a similar environmental challenge and are similar in function but not necessarily in structure.
Examples of similar structures include the wings of flying creatures like bats, birds, and insects, as well as the fins of fish and penguins. Similar structures can be seen in other animals and plants as well, such as those seen in sweet potatoes and potatoes, both of which serve as food storage.
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The Golgi apparatus _______ proteins around the cell.
The Golgi apparatus is responsible for modifying, packaging, and transporting proteins and lipids within the cell or for secretion outside the cell. It tags proteins with 'shipping addresses' and forms vesicles that carry them to their required destinations, also producing lysosomes for waste digestion.
Explanation:The Golgi apparatus is an essential organelle found in eukaryotic cells that plays a pivotal role in processing, modifying, and packaging proteins and lipids. It receives proteins from the rough endoplasmic reticulum (ER) and adds 'shipping addresses' or tags to them. The Golgi then encapsulates these proteins into vesicles and dispatches them to their correct destinations within the cell or to the cell membrane for exocytosis. This function of the Golgi apparatus is critical for ensuring that proteins reach their required location to perform their cellular functions. Moreover, the Golgi is involved in the production of lysosomes, which are organelles that contain digestive enzymes to break down waste materials and cellular debris.
During most of the mesozoic era, earth was ________.
a. about as warm as present
b. cooler than present
c. warmer than present
d. experiencing wild temperature fluctuations
Answer:
c. warmer than present
Explanation:
The Mesozoic Era (Meso = Middle and Zoic = Life) is marked by the emergence of dinosaurs and encompasses the period from approximately 250 to 65 million years ago. It is divided into three periods, from oldest to most recent: Triassic, Jurassic and Cretaceous. This era was warmer than the present.
Its onset is marked by a large mass extinction of unknown causes and the formation and fragmentation of Pangeia. The enhancement and extinction of dinosaurs is also a striking fact of this era called the “age of dinosaurs” because that was when they developed most. It is also in this Era that the first flowering plants and the first birds appear.
An exoskeleton is found in ________; an endoskeleton is found in ________.
Which one of the following scenarios accurately describes a condition in which resonance can occur? A. A column of air has a height equal to 1⁄8 of the wavelength of the sound waves produced by a tuning fork vibrating over the column of air in an open pipe that's partially immersed in water. B. A person is holding a tuning fork on one end of a football field and another person is holding a separate tuning fork on the opposite end of the field. C. A pipe's length is equal to 1⁄2 of the wavelength of the sound waves produced by a tuning fork vibrating over one end of the pipe that's open to the air at both ends. D. A vibrating tuning fork is struck and begins to vibrate as the object used to strike it is placed away from the tuning fork.
Shark pups with the most advantageous traits are more likely to survive and reproduce. For example, pups that can hunt and feed with efficiency directly after being born would have an advantageous trait. What is the best prediction of how this will affect the frequency of advantageous traits in future generations?
A) are sharks in the next generation will have those exact traits
B) as long as conditions favor those traits those traits will become increasingly common in future generations
C) regardless of environmental conditions those traits will decrease in frequency in future populations
D) some of those sharks will reproduce and the more advantageous traits will remain in the population at a constant frequency
The answer is B. This is called genetic shift. The pups with advantageous traits are able to survive until the age of reproduction hence able to pass their genes to the next generation. Few and fewer pups with disadvantageous traits will get to reproduce hence the allelic frequencies of the shark population will shift in favour of increased hunting efficiency.
Provide an example to illustrate how an adaptation may lead to natural selection. the example should be detailed enough to show that you understand the linkage.
Answer:
I have chosen to use peppered moths and black moths as my example of adaptation.
The species called peppered moths is widespread in Britain and Ireland. This type of moth got its name due to the grey- and black-speckled pattern it has. This structural trait provides the peppered moths with camouflage when resting on tree trunks. A genetic mutation caused some of the moths to have almost black wings. However, moths with this mutation had a smaller population, because these forms were not completely camouflaged when at rest and predators could spot them easily. Thus, the population of the pale peppered moths was higher than that of the black moths.
The nineteenth century brought with it a lot of industrialization. The industrialization created a tremendous amount of soot and air pollution. This led to blackening of urban tree trunks and walls. So, black moths had better camouflage on tree trunks than the peppered moths did. Due to this, there was an increase in the population of black moths, and a decrease in the population of peppered moths as birds more easily preyed upon them because they were easier to see on the dark tree trunks.
Thus, the species of moth that adapted to the changing environmental conditions were survived.
What is the function of the xylem? phloem?vascular cmabium? epidermis?
The xylem transports water and provides structural support, the phloem transports sugars, the vascular cambium facilitates secondary growth, and the epidermis protects the plant and minimizes water loss.
Below are the primary functions of the xylem, phloem, vascular cambium, and epidermis:
Xylem: Transports and stores water and water-soluble nutrients from the roots to other parts of the plant. It also provides structural support due to the thick walls of its cells, such as tracheids and vessels.Phloem: Responsible for transporting sugars, proteins, and other organic molecules produced during photosynthesis from the leaves to other parts of the plant. It comprises specialized cells such as sieve tube elements and companion cells.Vascular Cambium: A layer of dividing cells located between the xylem and phloem. It is responsible for the secondary growth of xylem and phloem tissues, contributing to the thickness of stems and roots.Epidermis: The outermost layer of cells covering the plant body, including the leaves, stems, and roots. It serves as a protective barrier against physical damage, pathogens, and water loss, often supplemented with a waxy cuticle.The human heart has to pump the average adult's 6.2 l of blood through the body every minute. the heart must do work to overcome frictional forces that resist the blood flow. the average blood pressure is 1.3×104 n/m2 .
While breathing into a plastic bag what happens to the levels of carbon dioxide in your blood?
8 P O I N T S!
Which of the following is a characteristic of a scientific experiment? Its results always support the hypothesis. It shows cause and effect relationships. It is performed in nature. It can be performed only once.
B. It shows cause and effect relationships is the answer
Answer:B. It shows cause and effect relationships is the answer
Explanation:
cause i effect your awnser with the awnser!