PLEASE HELP!
There are 10 players playing tug of war that can exert 1000 N force. The first two largest players can both exert 400 N force and the last two smallest players can give the total of 30 N force. Find the total force of the other 6 players can exert.

Answer:

True.

Explanation:

Modeling involves the making of representation of anything. The creation of tiny functional volcano is an example of modeling. The representation of anything else on a smaller scale is defined as modeling. Military commanders can use physical and computational modeling to plan an offensive.

Making model is representation of creation complex objects or may be processes. Models help people understand those things that are complex and they can not detect directly.

The answer is 2 Joules.

Final answer:

In the biology experiment, the hypothesis predicted that older compost leads to taller bean plants, the independent variable was the age of the compost, the dependent variable was the plant height, and the control was the group with no compost.

Explanation:

Identifying Variables and Structure in a Biology Experiment

In the described biology class experiment, the hypothesis is that older grass compost will produce taller bean plants due to the necessary decomposition for the release of nutrients. The independent variable is the age of the grass compost (3 month-old, 6 month-old, and no compost). The dependent variable is the height of the bean plants measured at the end of the experiment. Constants in the experiment include the amount of sunlight and water received by the plants daily, ensuring other factors do not influence the plant growth. The control in this experiment is flat C, which received no compost. The experiment had three groups (flat A with 3 month-old compost, flat B with 6 month-old compost, and flat C with no compost), and each group consisted of 25 bean plants, which implies that there were 25 trials per group.

To address the question directly, we can summarize:

Answer:

its explain

Explanation:

Unlike a theory, a scientific law describes an observed pattern in nature without attempting to explain it.

Answer:

Surface area of the moon is [tex]S=3.8\times 10^{13}\ m^2[/tex]

Explanation:

It is given that,

Diameter of the moon, d = 3480 km

Radius of the moon, [tex]r=1740\ km=1740\times 10^3\ m[/tex]

Moon is in the form of sphere. The surface area of the moon is given by :

[tex]S=4\pi r^2[/tex]

[tex]S=4\pi \times (1740\times 10^3)^2[/tex]

[tex]S=3.8\times 10^{13}\ m^2[/tex]

So, the surface area of the moon is [tex]3.8\times 10^{13}\ m^2[/tex]. Hence, this is the required solution.

We have that for the Question "The diameter of the Moon is 3480 km. What is the surface area of the Moon?" it can be said that the surface area of the Moon

A=38045943.67km

From the question we are told

The diameter of the Moon is 3480 km. What is the surface area of the Moon?

Generally the equation for the   surface area of a Sphere is mathematically

given as

[tex]A=4\pir^2\\\\Therefore\\\\A=4\pir^2\\\\A=4\pi( 3480 /2)^2\\\\[/tex]

A=38045943.67km

Therefore

the surface area of the Moon

A=38045943.67km

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You raise 1,5000 pennies i.e. $150 in this process.

One of the four fundamental mathematical operations, along with addition, subtraction, and division, is multiplication. Multiplication in mathematics refers to the continual addition of sets of identical size.

Given parameters:

You raise a penny for each meter you walk in a fundraiser.

You walk 15 kilometers.

Now, we know that: 1 kilometer is equal to 1,000 meter.

Then, 15 kilometer is equal to (15 × 1,000) meter = 15,000 meter.

Hence, as you raise a penny for each meter you walk in a fundraiser, in 15,000 meter, the number of pennies you raise

= ( 1 + 1 + 1 + ..... 15,000 times)

= 1 × 15,000

= 15,000

So, you raise 15,000 pennies i.e. $150 in this process.

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Answer:

The correct answer is D my guy

Explanation:

Final answer:

To find the mass of a copper pipe that displaces 285.0 mL of water, you multiply the water's volume (which equals the pipe's volume) by the density of copper. The calculation yields 2536.5 g, which is rounded to 2537 g, corresponding to answer choice D.

Explanation:

To find the mass of a section of copper pipe that displaces 285.0 milliliters of water when dropped in a displacement tank, you can use the given density of copper at 20.00° C, which is 8.900 g/cm³. Since the volume of water displaced by the copper pipe equals the volume of the pipe itself, the volume of the copper can be written as 285.0 mL (which is equivalent to 285.0 cm³ since 1 mL = 1 cm³).

The mass of the copper pipe is calculated using the formula:

mass = density × volume

Mass of copper pipe = 8.900 g/cm³ × 285.0 cm³

Mass of copper pipe = 2536.5 g

Rounding to three significant figures, the mass of the copper pipe is 2537 g. Therefore, the correct answer is D. 2537 g.

The electrical appliance invented in 1910 that became widely recognized is the electric toaster. This early toaster is credited with being one of the first to commercially use electricity for cooking purposes.

The invention of the electric toaster in 1910 was a result of the technological advancements and understanding of electricity dating back to the works of scientists like Michael Faraday and James Maxwell. In the late 19th century and early 20th century, electricity began to revolutionize households, leading to the creation of many household appliances we recognize today. The electric toaster was one of the pioneering electric appliances that harnessed the power of electricity for a daily household task, making it a significant invention in the history of domestic technology. Electricity used in these early appliances, though efficient, presented challenges with the electrical infrastructure of the time. Household appliances now typically use a standard voltage of 220 - 240 V, but back then, there were different standards, and the voltage distribution for appliances varied greatly, which contributed to the evolution of electric appliances and today's electrical standards.

Answer:

Laboratory experiments

Explanation:

:)

Wet sand reduces calculated air space volume and lowers the percentage of total volume attributed to air space.

If the sand was slightly wet at the beginning of the experiment, it would have the following effects:

Volume of Air Space: The presence of water in the sand would reduce the amount of air in the sand particles. Therefore, the volume of air space calculated would be underestimated because some of the air spaces are already filled with water.

Percentage of Air Space: Since the volume of air space is underestimated, the percentage of the total volume that is air space would also be **lower** than it actually is.

Explanation:

1. Ca  → element

Ca is a symbol of calcium element categorize as alkali earth metal.

2. [tex]H_2O[/tex]  → compound

Compound is a substance made up of two more than two different elements.

3. Nuclear decay  → fission

Fission is defined as process in which heavier unstable nucleus divide itself into two or more smaller stable nuclei with release of large amount of energy.

4. Nuclear synthesis  → fusion

Fusion is defined as process in which two or more nuclei combines together to form an larger nucleus with release of large amount energy.

5. η  → neutron

One of the subatomic particle of an atom located in the nucleus of an atom with no electrical charge.

6. Positive charge  → proton

One of the subatomic particle of an atom located in the nucleus of an atom with positive electrical charge.

7. e  → electron

One of the subatomic particle of an atom located inside an atom and outside the nucleus of an atom with negative electrical charge.

8. Number of protons in nucleus → atomic number

Atomic number of an atom is equal to the total number of protons present in the nucleus if the an atom.

Answer:

Water

Explanation:

If we consider the planet to be Earth, it is water. It is the only item that exists in all three states of matter: Water (Liquid state), Ice (Solid state) and water vapor (Gaseous state) at standard pressure. No other elements/compound can exist in all three states at standard pressure. In fact, Earth is the only known planet to have this condition which makes it suitable for life.

Answer:

Force.

Explanation:

Let a is the acceleration of an object. It is given by the rate of change of velocity. Its formula is given by :

[tex]a=\dfrac{dv}{dt}[/tex]

Also there is a relationship between the force and acceleration as per the second law of Newton. Its mathematical expression is given by :

[tex]F=m\times a[/tex]

m is the mass of the object

a is its acceleration.

It is clear that the acceleration of an object is directly proportional to the force. So, the acceleration of an object would increase if there was an increase in the force.

We use the formula:

a = (v^2 - u^2)/2s 

a = acceleration = ? 
v = final velocity = 2.5x10^6 
u = initial Velocity = 1x10^5 
s = distance traveled. = 0.012m 

To find the acceleration, we need to fill in the variables: 
a = ((2.5x10^6)^2 - (1x10^5)^2)/ 2* 0.012 = 260,000,000,000,000  m/s^2

Our acceleration is 2.6 × 10^14 m/s^2 

Answer:

D.a pick-up truck

Explanation:

Force required to move an object is given by

F = ma

Where,

m = Mass

a = Acceleration

Here, the acceleration is constant as all the velocities are same so the mass varies the force required. From the equation it can be seen that force varies directly with mass i.e., if mass increased the force will also be increase.

Out of the options here the pick up truck has the most mass so the amount of force will be greatest here.

Answer:

less than the water

Explanation:

Since the volume of ice grows while it develops, it has a lower density than water since water's mass doesn't change during the cooling and freezing process.

Ice has a density that is around 90% that of water, however this might change since ice can also include air.

Accordingly, only 10% of an ice cube (or iceberg) will be above the surface of the sea, water is more thick than ice.

In comparison to water of the same volume, ice of the same volume or ice that barely reached the line on the cup would have less substance (water).

Therefore, compared to the density of liquid water ice grows while it develops, it has a lower density than water.

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Choreography in aerobic dance refers to the planned and rehearsed arrangements of dance movements that provide a cardiovascular workout and incorporate artistic elements in sync with music.

Choreography refers to the art of creating, arranging, and recording dance movements to convey a specific aesthetic or theme in a dance performance. In the context of aerobic dance, choreography involves designing routines that combine fitness and dance elements to provide an effective cardiovascular workout. Unlike improvised or random dancing, choreography in aerobic dance is planned and rehearsed to ensure that each movement aligns with the music and enhances the overall cardio exercise experienced by participants.

Within aerobic dance, choreography plays a crucial role in ensuring that participants engage in continuous motion, which helps to maintain the aerobic nature of the exercise. This type of exercise is characterized by its reliance on aerobic metabolism, utilizing oxygen to meet energy demands during the workout. Choreography for aerobic dance is often synchronized with upbeat music, which motivates participants and adds enjoyment to the workout.

Effective choreography in aerobic dance also considers the safe execution of movements to avoid injury, making the role of a choreographer essential. The choreographer is the person responsible for not only the artistic vision of the dance but also the practical aspects such as ensuring all movements are achievable by participants at various levels of fitness and skill.

In general, the quantity of heat energy, Q, required to raise a mass m kg of a substance with a specific heat capacity of c J/(kg °C), from temperature t1 °C to t2 °C is given by:

Q = mc(t2 – t1) joules

So:

(t2-t1) =Q / mc

As we know:
Q = 500 J 

m = 0.4 kg

c = 4180 J/Kg °c

We can take t1 to be 0°c

t2 - 0 = 500 / ( 0.4 * 4180 )

t2 - 0 = 0.30°c

Option C, "30m/s east," offers the most accurate and complete description of the object's velocity, encompassing both magnitude and direction, essential for understanding the object's motion comprehensively.

The best description of velocity includes both magnitude and direction. Option C, "30m/s east," provides this information. Velocity is a vector quantity, indicating both speed and direction. In this case, the magnitude of the velocity is 30 m/s, and the direction is specified as east. This comprehensive description allows us to understand both how fast the object is moving and in which direction it is moving.

Option A, "30m/s," only provides the magnitude of the velocity, leaving out the crucial directional information. Option B, "30m east," provides direction but lacks clarity regarding the speed; it could imply the object traveled 30 meters east over some unspecified period. Option D, "30m/s^2," represents acceleration, not velocity. It indicates a change in velocity over time, rather than describing the velocity itself.

In summary, option C, "30m/s east," offers the most accurate and complete description of the object's velocity, encompassing both magnitude and direction, essential for understanding the object's motion comprehensively.

The question probable may be:

Which of the following best describes the velocity of an object ?

A.) 30m/s

B.) 30m east

C.) 30m/s east

D.) 30m?s^2

Answer:

0.92

Explanation:

It is virtually certain that supermassive black holes exist in our galaxy, with compelling evidence for a massive black hole at the Milky Way's center. Accretion disks around black holes release the tremendous energy seen in quasars. The Milky Way is unlikely to become as luminous as a quasar in the near future.

The likelihood that black holes exist in our galaxy is very high. Ground-based observations and data from the W. M. Keck telescopes have provided compelling evidence of a supermassive black hole at the center of the Milky Way. This black hole has a mass of about 4 million times that of the Sun, crammed into an extremely small volume that could fit within the orbit of Mercury. Considering alternatives to a black hole, such as a cluster of stars, would lead to frequent stellar collisions and eventually form a black hole anyway due to the immense mass in such a confined space.

Regarding the question about the energy emitted from quasars, an accreting black hole can explain this phenomenon. As matter falls into a black hole, it forms a hot accretion disk around it, which emits tremendous amounts of energy before the matter is swallowed by the black hole. Thus, while black holes pull matter in, they can also account for the energetic outpourings seen from quasars.

As for whether the Milky Way could become as luminous as a quasar, it is unlikely in the near future since quasars are thought to be the early active stages of galaxies with supermassive black holes rapidly accreting mass. The Milky Way's central black hole does not currently exhibit such intense activity.

Final answer:

It is highly likely that black holes exist in our galaxy, with strong evidence supporting a supermassive black hole at the center of the Milky Way with a mass of about four million times that of the Sun.

Explanation:

The likelihood that black holes exist in our galaxy is very high. Observations have provided compelling evidence for a massive black hole at the center of the Milky Way. This black hole has a mass approximately four million times that of the Sun and fits within a space smaller than the orbit of Mercury. Such a concentration of mass in a small space could not be accounted for by normal stars or clusters of stars as it would result in continuous collisions and eventually lead to the formation of a black hole. Thus, a supermassive black hole is the most plausible explanation for the observed data, including the orbits of stars near the galactic center and the immense gravitational influence within that region. Additionally, similar evidence is found in the centers of other galaxies, reinforcing the existence of these enormous gravity wells.

Structuralism, founded by Wilhelm Wundt, aimed to analyze the basic elements of conscious experience through introspection, where participants reported their thoughts and feelings when exposed to stimuli

. However, psychologists gradually moved away from this method for several reasons:

Subjectivity and Reliability: Introspection relies heavily on individual subjective reports, which can vary greatly between different participants. This subjectivity made it hard to achieve consistent results that can be reliably studied across larger groups.

Unconscious Processes: Scholars began to recognize the significance of unconscious mental processes that influence behavior and thoughts outside of conscious awareness. Structuralism did not effectively account for these unconscious elements, prompting a shift toward schools of thought like behaviorism that focus more on observable actions.

Scientific Rigor: As psychology evolved, there was an increased emphasis on empirical research and controlled experiments. Critics argued that the introspective method used by structuralists lacked the objectivity needed for scientific inquiry.

Final answer:

At an occluded front, warm air trapped between two cold air masses is forced upward, leading to cooling and condensation that forms clouds and precipitation. The correct explanation is option B: Warm air trapped between two cold air masses is pushed upward and cut off from the surface. As the air rises, it cools, and the water in the air condenses to form clouds and precipitation.

Explanation:

The correct explanation of what happens to a warm air mass at an occluded front is given by option B: Warm air trapped between two cold air masses is pushed upward and cut off from the surface. As this warm air rises, it cools, and the water vapor within it condenses to form clouds and precipitation. This lifting of the warm air occurs because cold air is denser than warm air, leading to the warm air being forced above the cold air masses.