A student was trying to find the relationship between mass and force. He placed four different masses on a table and pulled them using a spring scale. The table shows the different masses used in the experiment and the force required to pull each mass. The student concluded that more force was required to pull heavier objects. What comment would you make regarding his conclusion? A) No clear relation can be observed between mass and force from the data. B) There is a direct proportion between the mass and force listed in the table. C) Gravity should have been taken into account while performing the experiment. D) There is an inverse proportion between the mass and force listed in the table.


Mass (kg) Force (N)

5 25

10 50

15 75

20 100

Answer:

Motion of tides in the sea.

Explanation:

The motion which does not repeat itself after the regular interval of time is called non-periodic motion.

Non-periodic motion refers to movement that does not repeat in a regular pattern. The Foucault pendulum is an example, as its plane of oscillation rotates due to Earth's rotation, distinguishing it from periodic motions like simple harmonic motion.

Examples of Non-Periodic Motion

An example of non-periodic motion is the motion of a projectile, such as a ball thrown into the air. Unlike periodic motion, non-periodic motion does not repeat itself in a regular pattern over time. The Foucault pendulum is a classic example of motion in non-inertial frames and is often mistaken as exhibiting periodic behavior. However, while a simple pendulum oscillates back and forth in a regular manner, the plane of oscillation of the Foucault pendulum gradually rotates due to the Earth's rotation, which is an example of non-linear motion. This slow rotation cannot be characterized by a single period, distinguishing it as non-periodic motion.

In contrast, simple harmonic motion (SHM) is a classic representative of periodic motion. An example of SHM is a mass attached to a spring that moves back and forth; its displacement can be represented as a sine wave function, indicating its periodic nature. Such systems have defining quantities like amplitude, period, and frequency, which do not apply to non-periodic motions.

Other examples of non-periodic motion might include a leaf falling from a tree, a car navigating through city traffic, or the random motion of a gas particle, which do not repeat consistently and lack a regular period.

Answer:

C. No additional heat is required to make it occur

Explanation:

A reaction is said to be spontaneous if it can occur on its own. Spontaneous reactions do not require additional energy or heat from other sources to occur.

A spontaneous reaction leads to an increase in the disorderliness of a system.

We can use the free energy change of a system which measures the energy of a system used to useful work to predict the spontaneity of a reaction.

If the Free energy change is negative the reaction is said to be spontaneous or feasible.

Answer: Option 'D' is correct.

Explanation:

Earth has one natural satellite i.e. "Moon".

Earth spins on its axis due to moon is tidally locked.

The mass of moon is much greater than the mass of earth.

The age of moon is much older than the age of Earth.

The moon is older than Earth by approximately 300 million years.

so, only one statement is  correct i.e. 'D'.

Hence, Option 'D' is correct.

Answer:

TOOK THE TEST AND GOT IT WRONG! D IS NOT THE ANSWER!!

Explanation:

Hope this helps! have a good day!

Answer:

Blue

Explanation:

The answer isssss Blue

Answer:

All of the above

Explanation:

Astronomers use all of those measures to classify stars. If you want to look more into classifying stars, check out the Hertzsprung-Russel Diagram. It covers how to identify red giants, main sequence, dwarf stars, ect. Distance from earth is typically measured in light years. The color of stars generally determines how hot they are. (Blue stars are the hottest) Also, the parallax method is used to measure stars that are closer to earth. This method relies heavily on geometry though.

Hope this helped!

Answer:

Herpetology is the branch of zoology concerned with reptiles and amphibians.

Answer:

birds

Explanation:

im taking the test rn

Answer:

C

Explanation:

It is the answer

Answer:

C. KBr is about twice as soluble as NaCl at 60°C

Explanation:

From the graph of solubility of various solutes with respect to temperature we can figure-out that on y-axis we have the increasing solubility of the solvents in gram per 100 gram of water as we move upwards and on x-axis we have increasing temperature of the solvent (water) moving rightwards.

As we move vertically up through 60°C line we notice that NaCl has solubility nearly 40 grams per 100 gram of water whereas on further moving up in the same line we find that KBr has nearly 80 gram per 100 gram of solubility.

The solubility of NaCl varies negligibly with change in the temperature of water whereas the solubility of KNO3 is greatly increased by the increasing temperature.

Answer:

1. D) group; the same number of valence electrons

A group is a column in the periodic table where elements have the same number of valence electrons. Sodium and Chlorine bond to form table salt through an ionic bond.

A column in the periodic table is called a group. Elements in each group have the same number of valence electrons. This means that they have similar chemical properties and tend to react in similar ways.

Sodium (Na) and Chlorine (Cl) bond to form table salt (NaCl) through an ionic bond. Na transfers an electron to Cl, resulting in the formation of Na+ and Cl- ions. The opposite charges of the ions attract each other, creating the ionic bond in NaCl.

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B should be your answer good luck!

Answer:

B

Explanation:

THE Answer should be b

Answer:C

Explanation:

Total Resistance=R1+R2

R1=2*5=10ohms

R2=3*20=60ohms

Therefore; Total R=10+60

=70ohms

The total resistance of the series circuit is calculated by adding the resistances of all the individual components. By calculating and adding together the total resistance for the fans and the lights, you find that the total resistance for the circuit is 70 ohms.

In a series circuit, the total resistance is obtained by simply adding up all the individual resistances within the circuit. Therefore, to find the total resistance of John's circuit, you need to multiply the number of each component by its resistance and add these totals together.

For the fans: 2 fans × 5 ohms per fan = 10 ohms.

For the lights: 20 lights × 3 ohms per light = 60 ohms.

Adding these two totals together gives the total resistance of the circuit: 10 ohms + 60 ohms = 70 ohms. So the total resistance of the circuit is 70 ohms, making the answer choice C. correct.

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Answer:-

It stops when the temperature of all the particles/atoms is equal.

Explanation:

When two objects or substances that have different temperature are placed in contact with each other then there will be flow of heat from hotter object to colder object.

This transfer of heat will continue until the temperature of both the objects become equal.

For example, if a metal box has [tex]T_{1}[/tex] temperature that is higher than another metal box adjacent to it which has [tex]T_{2}[/tex] temperature. Then heat will flow from [tex]T_{1}[/tex] to [tex]T_{2}[/tex] until the temperature of both the boxes become equal to [tex]T_{3}[/tex].

Hence, we can conclude that conduction stops when all substances have same temperature.

Adding a battery in a circute has effect of producing push from the more batteries acting together which helps to move the charged particle around the circute more quickly.

This means that the more charged particles per second pass any point in circuit and so the size of electric current is increased.

Answer:

I believe it is False.

Explanation:

Hope my answer has helped you!

Answer:

Your answer would be A, Ball A had more kinetic energy than Ball B.

Explanation:

This is the correct answer because kinetic energy is motion. If balls A and B have an equal mass, but ball A reaches the end of the lane quicker, this is the only answer that is possible.

Answer:

A scientific law is a statement based on repeated experimental observations that describes some aspect of the world. A scientific law always applies under the same conditions, and implies that there is a causal relationship involving its elements

Answer:

An object at rest will remain at rest unless an unbalanced force acts upon it.

Study Island Answer

Hello There!

Because kinetic energy is proportional to the square of the velocity, when velocity is doubled, kinetic energy is quadrupled.

Answer:

The solar radiation is one of the main factors that shapes the climate all over the globe, so the climate differs with the less or more solar radiation it gets. The polar regions are cold, this is due to the fact that the solar radiation in here is very obscure, because the solar radiation falls at a very wide angle the heat is dispersed over larger area, thus the land gets very little warmth. The Equator, on the other hand, gets direct solar radiation, the sun light falls at a 90 degrees angle or close to it, so the radiation is more concentrated on a smaller area, thus the warming is bigger.

* hopefully this helps:) Mark me the brainliest:)!!!

Final answer:

Solar radiation impacts the equator and polar regions differently; the equator receives more direct sunlight, resulting in higher temperatures and less seasonal variation, while the polar regions receive oblique rays that lead to less intense solar radiation and increased seasonal temperature extremes. The Earth's oceans and atmosphere redistribute heat, and the tilt of the Earth contributes to seasonal differences in climate.

Explanation:

The solar radiation affects the climate differently at the equator compared to the polar regions due to the Earth's curvature and tilt. Near the equator, solar radiation is more direct, leading to higher temperatures and more consistent climatic conditions throughout the year. In contrast, polar regions receive oblique rays, resulting in less intense solar radiation and more extreme seasonal variations in temperature.

Oceans and the atmosphere work together to redistribute this heat, moderating climates by transferring warmth from equatorial regions to the poles. This is facilitated by ocean currents and atmospheric circulation, which move heat laterally across the planet, bringing about a more balanced climate globally. The presence of ice and snow in polar regions, with high albedo, reflects significant amounts of solar radiation, further reducing the energy absorbed in these areas.

Throughout the year, solar radiation varies based on latitude, with regions between 23.5 degrees north and south experiencing the highest amounts of solar radiation during the equinoxes. The changing angles of solar radiation due to the Earth's tilt contribute to seasonal differences, with more direct sunlight during summer months leading to warmer temperatures and an increased angle during winter causing more reflected sunlight and cooler temperatures.

Answer:

It takes 3.31 s for the boy to hear the returning sound of the stone

Explanation:

Ok, the time after which splash is heard is equal to the time acquired by the stone to reach the ground + time taken by sound to return.

First, u=0 m/s (this is the initial speed with which the stone was thrown), h=50 m (is the height of the tower) and g=10 m/[tex]s^{2}[/tex] (is the gravity)

We can use this equation that relates the free fall of the object:

[tex]h=u+\frac{1}{2} gt^{2}[/tex]

[tex]50=0+\frac{1}{2}(10)t^{2}[/tex]

[tex]50=5t^{2}[/tex]

[tex]10=t^{2}[/tex]

and [tex]t=\sqrt{10}=3.16 s[/tex]

t =3.16 s is the time it takes the stone to fall

Second, h=50 m and v=340 m/s (that it's the speed of sound)

We can use this equation:

[tex]h=vt[/tex]

[tex]t=\frac{h}{v}[/tex]

[tex]t=\frac{50}{340}=0,15 s[/tex]

t=0.15 is the time it takes for the sound to return

Finally, both times are added, obtaining the time in which the boy will hear the returning sound of the stone:

[tex]t= 3.16 s + 0.15s[/tex][tex]=3.31 s[/tex]

Answer:

Choice a. 1 kg, assuming that all other forces on the object (if any) are balanced.

Explanation:

By Newton's Second Law,

[tex]\displaystyle a = \frac{\Sigma F}{m}[/tex],

where

As a result,

[tex]\displaystyle m = \frac{\Sigma F}{a}[/tex].

Assume that all other forces on this object are balanced. The net force on the object will be [tex]100\;\text{N}[/tex]. The net force is constant. Acceleration should also be constant and the same as the average acceleration in the two seconds.

[tex]\displaystyle \begin{aligned}\text{Acceleration} &= \text{Average Acceleration}=\frac{\text{Change in Velocity}}{\text{Time Taken}}\end{aligned}[/tex].

[tex]\displaystyle {a} = \frac{200\;\text{m}\cdot\text{s}^{-1}}{2\;\text{s}}=100\;\text{m}\cdot\text{s}^{-2}[/tex].

[tex]\displaystyle m = \frac{\Sigma F}{a} = \frac{100\;\text{N}}{100\;\text{m}\cdot\text{s}^{-2}} = 1\;\text{kg}[/tex].

Answer:

a.1kg

Explanation:

Answer:

5.3 A

Explanation:

The orbital radius for the generic nth-level in the hydrogen atom is given by

[tex]a_n = n^2 a_0[/tex]

where:

[tex]a_0 = \frac{\epsilon_0 h^2}{\pi m_e e^2}[/tex]

is the Bohr radius, with

[tex]\epsilon_0 = 8.85\cdot 10^{-12} F/m[/tex] being the vacuum permittivity

[tex]h=6.63\cdot 10^{-34}Js[/tex] is the Planck constant

[tex]m_e = 9.11\cdot 10^{-31} kg[/tex] is the electron mass

[tex]e=1.6\cdot 10^{-19} C[/tex] is the electron charge

Substituting all this numbers into the formula, we find

[tex]a_0 = 5.3\cdot 10^{-10} m = 5.3 A[/tex]

and since

n = 1

the radius of the hydrogen atom for the first principal quantum number is

[tex]a_1 = 1^2 a_0 = 1 \cdot (5.3 A)=5.3 A[/tex]

Answer:

0.53 A

Explanation:

Answers: B) distance=10km

A) displacement=0km

Distance is a scalar of total unit distance travelled not depending upon path taken.

Displacement is a vector of unit displacement travelled along according to the path taken. So if we go 5km north and then go another 5km south to return home we have not had any displacement as we ended back at our starting point.

Hope this helps you understand some. Any questions feel free to ask. Thank you.

Speed = (distance covered) / (time to cover the distance)

Speed = (525 km) / (1.25 hrs)

Speed = (525/1.25) km/hr

Speed = 420 km/hr

Velocity = speed and the direction from start to finish

Velocity = 420 km/hr North

Velocity of a object is the ratio of distance covered by the object to the time taken by it. The velocity of the airplane is 420 kilometre per hours.

Given information-

The total distance covered by the airplane in north direction is 525 kilometres.

The total time taken by the airplane to cover this distance is 1.25 hours.

Velocity of a object is the ratio of distance covered by the object to the time taken by it.

It can be given as,

[tex]v=\dfrac{x}{t}[/tex]

Here, [tex]x[/tex] is the distance covered by the object and [tex]t[/tex] is time taken by it.

As he total distance covered by the airplane in north direction is 525 kilometres and the total time taken by the airplane to cover this distance is 1.25 hours.

Thus the velocity of the body can be given as,

[tex]v=\dfrac{525}{1.25}\\v=420[/tex]

Hence the velocity of the airplane is 420 kilometre per hours.

Learn more about the velocity here;

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Answer: Most decomposers are microscopic organisms, including protozoa and bacteria. Other decomposers are big enough to see without a microscope. They include fungi along with invertebrate organisms sometimes called detritivores, which include earthworms, termites, and millipedes.

Explanation:

Answer:

12.6 cm

Explanation:

We can use the mirror equation to find the distance of the image from the mirror:

[tex]\frac{1}{f}=\frac{1}{p}+\frac{1}{q}[/tex]

where here we have

f = 9.50 cm is the focal length

p = 39 cm is the distance of the object from the mirror

Solving the equation for q, we find:

[tex]\frac{1}{q}=\frac{1}{f}-\frac{1}{p}=\frac{1}{9.50 cm}-\frac{1}{39 cm}=0.080 cm^{-1}\\q = \frac{1}{0.080 cm}=12.6 cm[/tex]

Lithium atoms give electrons to bromine atoms to form ionic bond.

Lithium (Li) is the 3rd element in the periodic table. It can chemically combine with the Bromine (Br) element to form a chemical compound called Lithium bromide.

The Lithium Bromide compound is formed by lithium and bromine is an ionic compound. The bond formed between lithium and bromine is due to the transfer of electrons.

Thus, the Lithium atoms give electrons to bromine atoms to form ionic bond.

Learn more about ionic bond.

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Answer:

1  seesaw = first class lever

2. pencil and sharpener = wheel and axle

3. bottle opener = second class lever

4. forearm = third class lever

5. nail = wedge

Explanation:

The given objects are classic examples of simple machines.

Lever: There are 3 types of levers and they depend on where the load, applied force, and fulcrum are.

First class levers have the fulcrum in between the load and the applied force. In other words, the load and applied force are at opposite ends. The seesaw is a good example of this. Other examples would be, pliers, scissors, and the like.

Second class levers have the fulcrum and the applied force at the opposite ends. So in this case, the load is found in between. Examples of this would be a bottle opener or a crowbar.

For third class levers, the load and the fulcrum are at opposite ends and the applied force is in between. The forearm is a good example, so is a stapler, or even a broom.

A wedge is another simple machine. It is thick at one end and it gets thinner towards the other end, or it usually has a sharp end. Other examples of this would be an axe, or a knife.

A sharpener is actually a compound machine. The old-fashioned type of pencil sharpener, the one you crank makes use of a wheel and axle and a wedge. A wheel and axle is usually a machine that makes use of two circular parts; a wheel and a rod that is attached to its center.

Final answer:

The list involves identifying simple machines such as lever, wheel and axle, and the wedge. Key corrections include seesaw as a first-class lever, pencil sharpener utilizing wheel and axle, and a nail being a wedge.

Explanation:

The classification of the items listed involves understanding the basic types of simple machines recognized since the Renaissance—lever, wheel and axle, pulley, inclined plane, wedge, and screw. These machines serve as the foundational building blocks to explain how more complicated machines work, offering a mechanical advantage by altering the magnitude or direction of forces. Renaissance scientists identified these six simple machines as crucial in understanding mechanical principles.

A seesaw is an example of a first-class lever, where the fulcrum is between the input force and the load.

A pencil sharpener uses a wheel and axle, which consists of a rod (the axle) fixed to the center of a wheel, simplifying the twisting motion.

A bottle opener typically functions as a second-class lever or sometimes as a lever of another class, depending on its design, where the load is between the fulcrum and the effort.

The forearm acts as a lever within the human body, showcasing how levers are crucial in the design of living organisms for movements such as flexing and extending.

A nail is best described as a wedge, which is essentially two back-to-back inclined planes that apply force over a wider area.

Error corrections in the initial classification include identifying the seesaw as a first-class lever, the bottle opener's potential as a second-class lever depending on its design, the pencil sharpener as involving wheel and axle mechanics, the forearm as a biological example of lever mechanics, and finally, recognizing a nail as a form of wedge, not a lever.

Answer: Non metal.

Explanation: Carbon has 4 electrons in it’s valence shell which makes it a metalloid but commonly it is considered as a non metal.

Carbon is considered a nonmetal due to its brittleness, dull appearance, and inability to be reshaped into sheets or wires, despite being a good conductor of heat and electricity.

Is Carbon a Metal, Nonmetal, or Semi-Metal?

Carbon is classified as a nonmetal. It is a black and brittle substance that is a good conductor of electricity and heat, which might seem like metallic properties. However, unlike metals, carbon cannot be made into sheets or wires because it is not malleable or ductile. In fact, carbon exhibits several nonmetallic properties such as being dull and brittle. When examining the periodic table, nonmetals are located in the upper right corner except for hydrogen, which is why carbon firmly fits within the nonmetal classification.

In contrast, metals are typically shiny, silvery, and excellent conductors of heat and electricity, plus they can be shaped into sheets (malleable) or wires (ductile). Semi-metals or metalloids exhibit properties that are intermediate between metals and nonmetals. These elements are found along a diagonal band on the periodic table. Therefore, based on its properties and location on the periodic table, carbon is considered a nonmetal.

Answer:14,400 watts :)

Explanation:

Answer:

Liquid to gas

Explanation:

When molecules are in the liquid state, they are held together by internal forces of the molecules while moving in a constant motion.Increasing the temperature through heating, will make the molecules move faster and collide at a higher rate because they gain kinetic energy after obtaining the heat.This will loosen the forces holding the molecules together leading to vaporazation.

Answer:

The correct missing word is: vibrate.

Explanation:

The words he uses begin in his vocal cords which vibrate the air molecules in his throat.

The process by which the air pressure from the lungs is converted into audible vibrations is known as phonation.

When the air passes through the vocal folds, it causes them to vibrate, as phonation occurs. It is due to the vocal folds that a singer has a wide range of control over the pitch of his voice.