Which statement best describes how reproduction leads to natural selection in a population?
Organisms do not produce many offspring, so all of them can survive and pass on their traits.
Organisms overproduce offspring; consequently, all of them are likely to survive and pass on traits.
Organisms overproduce offspring, so only some survive and pass on their traits.
Organisms do not overproduce offspring; therefore, those that are produced will develop the best traits.

Answer:

It stores electrical energy for later

Explanation:

Answer:

The generator transforms the mechanical energy of the turbine into electrical energy.

Explanation:

The current through a 25 ohm resistor connected to a 5.0 V power supply is 0.2 A. Option A is correct.

Ohm's Law:

The voltage of the two points between in a conductor is directly proportional to the current flows through the conductor.

V = IR

Where,

V = voltage  = 5.0 V

I = current  = ?

R = resistance -  25  ohm

Put the values in the equation,

5 = 25 x I

I = 0.2 A

Therefore,  the current through a 25 ohm resistor connected to a 5.0 V power supply is 0.2 A.

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Answer:

Disadvantages of geothermal energy:

1. Potential emissions

The greenhouse gas below the surface tends to move up to the surface and this emission of gas contains sulfur dioxide and silica which also have considerable amount of toxic heavy metals such as mercury, boron and arsenic.

2. Surface instability

Construction of a geothermal power plant is quite difficult. It affects the stability of the land. In 1997, while constructing a geothermal power plant in Switzerland causes an earthquake of magnitude 3.4.

3. Location specific

Good geothermal reservoirs are not found at every place and the prime locations for the power plant are far from the population centers.

Answer:

As we keep on increasing the radius the value of the gravitation force of attraction decreases and as we decrease the radius the gravitation force increases.

Explanation:

Like the coulombs law of electrostatics, the law of gravitation also depends inversely on the square of the value of r. Therefore, as we keep on increasing the value of r the value of the gravitation force decreases and as we decrease the value of the r the value of gravitation force increases.

Gravitation Force=[tex]\frac{Gm_{1}m_{2} }{r^{2}}[/tex]

Coulombs's Law= [tex]\frac{Kq_{1}q_{2} }{r^{2}}[/tex]

Answer:

The answer is C

Explanation:

I did it on usatestprep and got it right

The work done by friction is -560 J

Explanation:

According to the work-energy theorem, the work done by the force of friction on the runner is equal to his change in kinetic energy. Therefore:

[tex]W=\frac{1}{2}mv^2-\frac{1}{2}mu^2[/tex]

where

W is the work done by friction

m is the mass of the runner

v is his final velocity

u is the initial velocity

Here we have:

m = 70 kg is the mass

u = 4 m/s is the initial velocity

v = 0 is the final velocity

Solving for W,

[tex]W=0-\frac{1}{2}(70)(4)^2=-560 J[/tex]

And the sign is negative because the direction of the force of friction is opposite to the motion of the runner.

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Answer: Work done is 18J

Explanation:

Force F = (Fx, Fy) and Displacement S = (Sx,Sy)

Fx=7N

Fy=-1N

Sx=3m

Sy=3m

F=(7,-1)N and S=(3,3)m

Work done is calculated by taking dot product of force and displacement vector

W=F·S

W=7×3 + (-1)×3

W=21+(-3)=18J

Answer:

18 and 35 degrees

Explanation:

Answer:

The gauge pressure is = 91.52 lb/in²

Explanation:

Given data,

The value of pressure in S.I unit, = 6.31 x 10⁵ N/m²

The conversion formula for SI unit into US Customary Units is given by,

                             1 N/m² = 1.45 x 10⁻⁴ lb/in²

Using the conversion formula, the new value of pressure becomes,

                        Pressure = 6.31 x 10⁵ X 1.45 x 10⁻⁴ lb/in²

                                         = 91.52 lb/in²

Hence, the gauge pressure is, ς = 91.52 lb/in²

To convert the absolute pressure of 6.31 × 10^5 N/m² to gauge pressure in lb/in², subtract the atmospheric pressure from the absolute pressure and then convert the gauge pressure from N/m² to lb/in² using the conversion factor. Therefore, the gauge pressure is approximately 76.8 lb/in.².

To convert the absolute pressure of 6.31 × 10^5 N/m² to gauge pressure in lb/in², we can use the conversion factor of 1 lb/in.² = 6.90 × 10³ N/m². First, we'll calculate the gauge pressure in N/m² by subtracting the atmospheric pressure (which is 1 atm) from the absolute pressure:

Next, we'll convert the gauge pressure from N/m² to lb/in²:

Therefore, the gauge pressure is approximately 76.8 lb/in.²

Answer:

The frequency of the wave is, f = 1 Hz

Explanation:

The half-wavelength of the wave can be found from the successive compression or rarefaction.

This is equal to the successive crest or trough.

The one wavelength is the wave that completes one cycle of vibration.

Therefore, the frequency of the wavelength is defined as the number of such vibrations per second. It is given by the formula

                                    f = 1 /T or v/λ   ( v - velocity of the wave)

                                      =  1 / 1

                                      = 1 Hz.

The unit of frequency is Hertz.

Answer:

Explanation:

In the above mentioned diagram it is shown that 2 compressions and 2 rarefactions are passing through a point in 1 second. Since a longitudinal wave is composed of 1 compression and 1 rarefaction therefore the frequency of the given wave is 2 Hz.

Explanation:

The cross section per unit length is uniform, so ρ is constant.

The center of mass is therefore:

x_avg = (∫₀ᴸ x ρ dL) / (∫₀ᴸ ρ dL)

x_avg = (∫₀ᴸ x dL) / (∫₀ᴸ dL)

x_avg = (½ L²) / (L)

x_avg = ½ L

14250. I just took it

Answer:

14,250 N

Explanation:

Weight = 14,700 N

Acceleration = -0.30m/s²

[tex]Acceleration = -0.30m/s2[tex]Weight=Fg\\\\Fg=mg\\\\Fg=14,700N\\m=?\\g=9.8m/s^{2} \\\\14,700N=m(9.8m/s^{2} ) \\\\14,700N/9.8ms^{2} =1500kg(mass)\\\\m=1500kg\\a=-0.30m/s^{2}\\\\f=ma\\f=(1500kg)(-0.30m/s^{2} )\\=-450N (net force)\\\\-450N=-14,700N+(Ft)\\14,250N=Ft[/tex]

Answer:

Accuracy refers to how close measurements are to the "true" value, while precision refers to how close measurements are to each other

The given statement "  Accuracy and precision mean the same thing" is false because accuracy and precision are two distinct concepts used to describe the quality of measurements.

1. Accuracy: Refers to how close a measured value is to the true or accepted value. In other words, it measures the correctness of a measurement. A measurement is considered accurate if it is close to the true value.

2. Precision: Refers to the consistency or reproducibility of measurements. It describes how close multiple measurements of the same quantity are to each other. Precision does not necessarily imply accuracy; measurements can be precise but not accurate if they are consistently off-target.

In summary, accuracy relates to correctness, while precision relates to consistency. A measurement can be accurate, precise, both, or neither. Therefore, accuracy and precision do not mean the same thing, and it is essential to distinguish between the two when evaluating the reliability of measurements.

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The wavelength is 91.5 pm ( 91.5 Pico meter).

Explanation:

The formula can be expressed below for electron’s energy,

            [tex]\text {Energy of electron}=\frac{p^{2}}{2 m}[/tex]

Where,

p = momentum

m= mass of electron

We know, mass of electron =  [tex]9.1 \times 10^{-31} \mathrm{kg}[/tex]

Energy of electron, [tex]1 e V=1.6 \times 10^{-19} \mathrm{J}[/tex]

Therefore, [tex]\text { energy of electron, 180 eV }=180 \times 1.6 \times 10^{-19} J[/tex]

By substituting the known values in the equation, we get,

          [tex]180 \times 1.6 \times 10^{-19}=\frac{p^{2}}{2 \times 9.1 \times 10^{-31}}[/tex]

          [tex]p^{2}=180 \times 1.6 \times 10^{-19} \times 2 \times 9.1 \times 10^{-31}[/tex]

          [tex]p^{2}=5241.6 \times 10^{-50}[/tex]

Taking square root, we get

          [tex]\text {Momentum, } p=72.399 \times 10^{-25} \mathrm{kg} . \mathrm{m} / \mathrm{s}[/tex]

We know,

               [tex]\lambda=\frac{h}{p}[/tex]

Here, h – Planck constant = [tex]6.626 \times 10^{-34} \mathrm{J.s}[/tex]

So, the wavelength would be,

              [tex]\lambda=\frac{6.626 \times 10^{-34}}{72.399 \times 10^{-25}}=0.0915 \times 10^{-34+25}=0.0915 \times 10^{-9} \mathrm{m}[/tex]

Adding [tex]10^{-3}[/tex]  in both numerator and denominator we get the value as

              [tex]\lambda=0.0915 \times 10^{-9} \times \frac{10^{-3}}{10^{-3}}=0.0915 \times 10^{3} \times 10^{-12}=91.5 \mathrm{pm}[/tex]

Where, pm – Pico meter - [tex]10^{-12}[/tex]

Answer:

The change in volume for a metallic dental filling due to the temperature difference is 0.1143 mm.

Explanation:

Given:

Temperature of the body is, [tex]T_1=37\ \°C[/tex]

Temperature of the ice-cream is, [tex]T_2=-6.2\ \°C[/tex]

Initial volume of the filling is, [tex]V=21.0\ mm^3[/tex]

Coefficient of thermal expansion is, [tex]\alpha =42.0\times 10^{-6}\ K^{-1}[/tex]

We know that the coefficient of volume expansion is related to thermal expansion as:

[tex]\gamma=3\alpha=3\times 42.0\times 10^{-6}=126\times 10^{-6}\ K^{-1}[/tex]

Now, change in volume for a metallic dental filling is given as:

[tex]\Delta V=V\gamma(T_1-T_2)\\\Delta V=21\times 126\times 10^{-6}(37-(-6.2))\\\Delta V=2646\times(37+6.2)\times 10^{-6}\\\Delta V=2646\times 43.2\times 10^{-6}\\\Delta V=0.1143\ mm^3[/tex]

Therefore, the change in volume for a metallic dental filling due to the temperature difference is 0.1143 mm.

The changes in volume for a metallic dental filling due to the difference between body temperature will be 0.1143 mm.

The expansion of any material due to the thermal application is known as thermal expansion.

The given data in the problem is;

Δv is the change in the volume =?

T₂ is the body temperature = 37.0°C

T₁  is the temperature of ice cream you ate (-6.2°C)

α is the expansion coefficient= 42.0 x 10⁻⁶ K⁻¹ mm

The coefficient of the volume expansion is given by;

[tex]\gamma = 3 \alpha \\\\ \gamma = 3 \times 42.0 \times 10^{-6} \\\\ \gamma = 126 \times 10^{-6}[/tex]

The change in the volume due to the thermal expansion is given by;

[tex]\triangle v = V \gamma (T_2-T_1) \\\\ \triangle v = 21 \times 126 \times 10^{-6} (37-(-6.2))\\\\ \triangle v = 2646 \times (37+6.2)\times 10^{-6} \\\\ \triangle v = 0.0143\ mm^3[/tex]

Hence the changes in volume for a metallic dental filling will be -18,62784 mm³.

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Yes, but it's a null vector .So,no vector can have a component at right angle to itself unless it is a zero vector.

The magnitude of a vector component at a right angle to the vector is zero, and the condition for the resultant of two vectors of equal magnitude to equal the magnitude of either one is when the angle between them is 0 or 180 degrees.

The magnitude of the component of a vector at a right angle to itself is always zero because a vector cannot have a component in the direction that is perpendicular to its direction of action. When we calculate the magnitude A and direction of a vector from its perpendicular components Ax and Ay, relative to the x-axis, we use trigonometric relationships, where Ax = A×cos(θ) and Ay = A×sin(θ).

Now, under the specific condition when two vectors are at right angles to each other, the magnitudes of their sum and difference are the same. This happens because the vectors are orthogonal, and their components in the direction of each other are zero. We also know that when the components are equal and vectors are added with an angle of 90 degrees between them, the magnitude of the resultant equals the magnitude of either vector multiplied by the square root of two. This is due to Pythagoras' theorem applied in the context of vector addition.

The mass of water is 0.139 kg

Explanation:

The density of a substance is given by the equation

[tex]\rho = \frac{m}{V}[/tex]

where

[tex]\rho[/tex] is the density

m is the mass of the substance

V is its volume

In this problem we have:

V = 139 mL is the volume of water

The density of water is:

[tex]\rho = 1 g/mL[/tex]

Solving the equation for m, we find its mass:

[tex]m=\rho V = (1.0)(139)=139 g[/tex]

And converting into kilograms,

[tex]m=139 g = 0.139 kg[/tex]

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Answer:

I believe that the answer is D. There are drilling platforms all along the coast that are used to drill for natural gas that can be used to generate electricity.

Explanation:

Solar panels use the sun, and that is renewable.

The power plant uses tides and waves, they are renewable.

Windmills use wind, that is renewable.

So, the answer is D.

Answer:

D. There are drilling platforms all along the coast that are used to drill for natural gas that can be used to generate electricity.

Answer:

Reference Point

Explanation:

The centripetal force is the radial force responsible for keeping an object in circular motion; its equation is [tex]F=m\frac{v^2}{r}[/tex]

Explanation:

Whenever an object is in circular motion, there must be a force that makes the object turning away from its "normal" straight trajectory, keeping it along the circular path.

This force always points towards the centre of the circle, and it is called centripetal force.

The equation to calculate the centripetal force for an object in uniform circular motion is:

[tex]F=m\frac{v^2}{r}[/tex]

where

m is the mass of the object

v is its linear speed

r is the radius of the circle

The nature of the centripetal force is always different and depends on the context. For instance:

- For a stone attached to the end of a rope put in horizontal circular motion, the centripetal force is provided by the tension in the string, which pulls constantly the stone towards the centre of the circle

- For a satellite in circular orbit around the Earth, the gravitational attraction between the Earth and the satellite provides the centripetal force

- For a car moving along a circular turn on an unbanked track, the force of frction between the tires of the car and the road provides the centripetal force.

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Centripetal forces are not made by anyone but rather are a type of force that acts on objects moving in a circular path, directed towards the center of the curvature. The equation for centripetal force ({F_c}) is  {F_c = m  imes v^2 / r}, where  {m} is the mass of the object,  {v} is the velocity at which the object is traveling, and  {r} is the radius of the circular path.

As per physics principles, centripetal force is the force that keeps an object moving in a circular path, always pointing towards the center of the path. It can be provided by various types of familiar forces, such as tension or gravitational force. Newton's third law explains that forces come in action-reaction pairs. When an object is moving in a circle, such as a stone whirled at the end of a string, the tension in the string is the centripetal force, and the stone's inertia that seems to pull away from the center is interpreted as centrifugal force. This feeling of being 'thrown' away from the center, such as when a car turns, is due to the body's inertia and not an actual force exerted outward. The centripetal force is essential in circular motion scenarios and can be described mathematically with Newton's second law applied to objects traveling along circular paths.

Answer:

955.36 seconds

Explanation:

Power is the rate of doing work over time

[tex]P=\frac{W}{t}[/tex]

We have

[tex]P=5.60* 10^7\ Watt[/tex]

[tex]W=5.35* 10^{10}\ Joule[/tex]

So the time taken is

[tex]t=\frac{W}{P}[/tex]

[tex]t=\frac{5.35* 10^{10}}{5.60*10^7} =955.36\ sec[/tex]

Answer:

Tendon connects our muscles to our bones.

Explanation:

A tendon (or sinew) is a tough band of fibrous connective tissue that usually connects muscle to bone and is capable of withstanding tension.

Tendons are similar to ligaments and fasciae; all three are made of collagen.

Ligaments join one bone to another bone; fasciae connect muscles to other muscles.

Tendons and muscles work together to move bones.

The tendon is the part of the muscle that connects directly to the bone.

True: when there is an angle between force and displacement, [tex]W=Fd cos \theta[/tex]

Explanation:

The work done by a force when pushing/pulling an object is given by the equation

[tex]W=Fd cos \theta[/tex]

where

F is the magnitude of the force

d is the displacement of the object

[tex]\theta[/tex] is the angle between the direction of the force and of the displacement

We have two extreme cases:

- When the force is parallel to the displacement, then [tex]\theta=0^{\circ}[/tex] and [tex]cos \theta = 1[/tex], so the work done is maximum and simply becomes

[tex]W=Fd[/tex]

- When the force is perpendicular to the displacement, then [tex]\theta=90^{\circ}[/tex] and [tex]cos \theta =0[/tex], so the work done is zero.

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A chlorine atom can form an ionic bond by accepting an electron when reacting with sodium to form NaCl, and a covalent bond by sharing electrons when forming a [tex]Cl_2[/tex] molecule with another chlorine atom. This corresponds to option C.

The statement that best explains the behavior of chlorine in its reactions with sodium to form sodium chloride (NaCl) and with another chlorine atom to form chlorine molecule ([tex]Cl_2[/tex]) is: A chlorine atom can form ionic bonds by accepting an electron and covalent bonds by sharing electrons. This corresponds to option C.

When a chlorine atom reacts with a sodium atom, it forms an ionic bond by accepting an electron. The chlorine atom, which has seven electrons in its outer shell, gains one electron from the sodium atom, leading to the formation of a chloride ion ([tex]Cl^-[/tex]) with a net negative charge. The sodium atom loses an electron and becomes a sodium ion ([tex]Na^+[/tex]). These ions have opposite charges and are held together in a crystal lattice form of sodium chloride.

On the other hand, when a chlorine atom reacts with another chlorine atom, they share one electron each to complete their outer electron shells, forming a covalent bond to create the chlorine molecule, [tex]Cl_2[/tex].

Answer:

Answer: •Currents occur at the surface of and deep within the ocean.

             •The Coriolis effect contributes to the direction of current flow.

             •Wind direction, the spin of Earth, and differences in temperature  

Explanation:

Answer:

Mathew, a farmer, cultivates monocultures of wheat. The negative effect that the monoculture farming have on Mathew’s land will be C. nutrients will not be recycled into the soil.

Explanation:

Monoculture farming is the practice of cultivating a single species of crop or plant at a time on farm. Growing the same crop again on the same land yearly destroys the nutrient of soil. It destroy the quality of soil and made farmers use more fertilizers.

The quality of the crop is degraded as it will not get the essential nutrients. But this practice is very popular as it increases the productivity of a particular species of crops. So by using this method, mathew will get these disadvantages.

Other options are incorrect as this practice will not cause water pollution. Neither it would produce greenhouse gases, nor it would decrease crop productivity.

Answer:

nutrients will not be recycled back into the soil

Explanation:

Plato :)

Answer:  

X: radius  

Y: tangential speed  

Explanation:  

Just took the test and got it right

In the table for centripetal acceleration equations, X refers to the radius of the circular path, and Y denotes the tangential speed of the object in circular motion.

The quantities that belong in cells X and Y in the student's table for the equations for centripetal acceleration are as follows:

In the context of circular motion, the variable r represents the radius of the circular path, and the variable v is the tangential speed or linear speed along the circular path. The variable ac stands for centripetal acceleration, which points toward the center of the circular path and is dependent on both r and v. The variable T represents the period, which is the time it takes to complete one full circle along the path.

The final velocity is 2.7 m/s

Explanation:

We can solve this problem by using the principle of conservation of momentum: in fact, in absence of external forces, the total momentum of the system must be conserved before and after the collision.

Therefore we can write:

[tex]p_i = p_f\\m_1 u_1 + m_2 u_2 = (m_1+m_2)v[/tex]  

where:  

[tex]m_1 = 3 kg[/tex] is the mass of the putty

[tex]u_1 = 10 m/s[/tex] is the initial velocity of the putty (we take its direction as positive direction)

[tex]m_2 = 8 kg[/tex] is the mass of the ball

[tex]u_2 = 0 m/s[/tex] is the initial velocity of the ball (at rest)

[tex]v[/tex] is the final combined velocity of the two putty+ball

Re-arranging the equation and substituting the values, we find the  final combined velocity:

[tex]v=\frac{m_1 u_1 + m_2 u_2}{m_1+m_2}=\frac{(3)(10)+0}{3+8}=2.7 m/s[/tex]

And the positive sign indicates their final direction is the same as the initial direction of the putty.

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The mass of the ball is 6.67 kg

Explanation:

The momentum of an object is given by:

[tex]p=mv[/tex]

where

p is the momentum

m is the mass of the object

v is its velocity

It must be noted that momentum is a vector quantity, so it has both magnitude and direction (but here only the magnitude is given).

For the ball in this problem, we have:

v = 1.5 m/s is its velocity

p = 10.0 kg m/s is its momentum

Solving the formula for m, we find the mass of the ball:

[tex]m=\frac{p}{v}=\frac{10}{1.5}=6.67 kg[/tex]

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The sample answer from Edge 2020 is Fossil fuels are burned to heat water and create steam. Moving steam turns turbines, which generate electricity.

(For those who don't want to paraphrase the other answer)

(Their answer is also copied word for word from lenntech . com which is against community guidelines)

Answer:

i will give you the sample answer and the answer i put..

sample answer: Fossil fuels are burned to heat water and create steam. Moving steam turns turbines, which generate electricity.

my answer: by burning fossil fuels the energy of the fossil fuels will be converted to mechanical energy by turbines. then electric generators will change this energy to electricity

Explanation:

Answer:option A is correct.

Explanation:Because in option C :magnetic field is constant.

Option D:Because in option D,electric field is constant.

Because constant electric and magnetic fields cannot produce electric current.

Option B:A changing electric field cannot produce magnetic field.

Option A:Because a changing magnetic field can produce electric current.

A rotating coil in a magnetic field generates electricity by electromagnetic induction, where a changing magnetic field within the coil induces an electric current.

A rotating coil inside a magnetic field generates electricity through a process known as electromagnetic induction. This principle is based on Faraday's Law of Electromagnetic Induction that states a changing magnetic field within a conductive loop induces an electromotive force. As the coil rotates, it cuts across magnetic field lines, inducing a voltage change. The variation in the magnetic field induces an electric current in the coil. This process is the basic working principle behind many electrical generators and motors.

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Answer:

Alkali Metals

Explanation:

Most commonly, the color represents what type of element it is (noble gas, alkali metal). This is not always true as different tables follow different coloring schemes

Colored tables are important because they give you an extra dimension of information. A typical periodic table is colored according to element groups, which are elements that share chemical and physical properties. Some element groups are easily identified as columns on the periodic table, but as you move across the table, the trends aren't so clear-cut. The metalloids and nonmetals, for example, don't fall neatly into the same column. Color coding helps identify similar elements such as these at a glance.

Final answer:

The orange region on a color-coded periodic table usually represents the f block, including lanthanides and actinides.

Explanation:

In the context of various color-coded periodic tables, the orange region typically represents the f block elements. An example can be found in an empty periodic table, separated into different colored blocks, where the s block is blue, the d block is green, the p block is red, and the f block is orange.

The f block includes lanthanides and actinides, which are typically shown at the bottom of the Periodic Table. These elements are known for their complex electronic configurations and are also referred to as inner transition metals.