explain the relationship between pitch and frequency.

Answer:

1.65 N

Explanation:

The force applied on the spring is given by Hook's Law:

[tex]F=k \Delta x[/tex]

where

k = 30 N/m is the spring constant

[tex]\Delta x = 19.5 cm - 14 cm = 5.5 cm = 0.055 m[/tex] is the elongation of the spring relative to its initial position

Substituting the numbers into the equation, we find the force applied to the spring:

[tex]F=(30 N/m)(0.055 m)=1.65 N[/tex]

A. If two in-phase waves arrive simultaneously at a point, their amplitudes add up.

Answer:

answer should be A.

Explanation:

It allows scientists to avoid the effects of light pollution.

Answer:

The advantage is to avoid the effects of light pollution.

Explanation:

There are several reasons why space observation is desirable in order to avoid problems that terrestrial observatories have. An example of this is that the space observatory does not suffer from the interference of city lights, avoiding light pollution. In addition, thermal turbulence (present in the atmosphere) also does not alter the telescope image.  The terrestrial atmosphere, having a spherical shape, acts as a lens that distorts images (a fact known as optical aberration), so the resolution of terrestrial images has a significant reduction. The atmosphere of our planet also absorbs an important portion of the electromagnetic spectrum (infrared and ultraviolet rays, for example), so some observations are virtually impossible to make.

The correct answer is :

B. the value of q is positive.

Hope this helps,

Davinia.

Answer : The correct option is, (B) the value of q is positive.

Explanation :

Photosynthesis : It is a chemical process or a reaction which takes place in the green plants or the living organisms.  During this process, the carbon dioxide reacts with the water in the presence of sunlight to gives glucose and oxygen as a product.  

The balanced chemical reaction will be,

[tex]6CO_2+6H_2O\overset{sunlight}\rightarrow C_6H_{12}O_6+6O_2[/tex]

As we know that the photosynthesis reaction can not takes place without sunlight. So, the photosynthesis reaction is an endothermic reaction in which the energy or heat are given to the system. That means the value of 'q' will be positive. If heat is released by the system then the value of 'q' is negative.

Hence, the correct option is, (B) the value of q is positive.

ANSWER:

the correct answer is D.Yes; without reproduction, once the living organisms died, there would be no offspring to replace them.

TIP: bc if a species dies and it doesnt reproduce that species will go extinct, and remember every specie plays a role in life (but they are some animals that dont and are just a threat to the world). so reproducing is the only way to keep their generation going!

~batmans wife dun dun dun...aka ~serenitybella

The correct answer is :

D. Yes; without reproduction, once the living organisms died, there would be no offspring to replace them.

If every species didn't reproduce they'd eventually all start dying and then there would be none left. (reproduce or reproducing basically means when a species gets pregnant and has more species. :D)

Hope this helps,

Davinia.

It is either A or B  i hope this helps

Answer

Greater than.

Static friction is the force that opposes motion between two objects that are not in motion. For the object to move one have to overcome the static friction. This force is usually greater than the force that exist between two surfaces that are in relative motion. This force is called kinetic friction.

For this reason the coefficient of static friction is greater that coefficient of kinetic friction.

Answer

66 m

Using the 2nd equation of linear motion, we can be able to solve the problem.

The equation states that;

S = ut + 1/2 at²

Where s ⇒ displacement,

            u ⇒ initial velocity,

            t ⇒ time and

            a ⇒ is acceleration

∴ S = ut + 1/2 at²

       = (5 × 6) + (1/2 × 2 × 6²)

       = 30 + 36

       = 66 m

A. Wedge

and

B.Screw

A screw is like an inclined plane wrapped around a pole or rod.

and a wedge looks kind of looks like this / and is inclined.

Hope this helps!

Please mark me brainliest! Thanks!

Final answer:

Most earthquakes occur along plate boundaries where stress is released through sudden slippages. The longer the interval between earthquakes, the greater the stress and energy released when the surface finally moves.

Explanation:

Most earthquakes occur along plate boundaries where tectonic plates interact. The motion of these plates builds up stress in the crust, which is released in sudden and violent slippages that generate earthquakes. The longer the interval between earthquakes, the greater the stress and the more energy released when the surface finally moves. For example, in California, the San Andreas Fault slips every 25 years or so, while the average interval between major earthquakes in the Los Angeles region is about 150 years.

The answer Is C i hope this is helpfull

Fluorescence occurs when a substance emits light after absorbing light or other electromagnetic radiation of a different wavelength. Thus, the correct option is C.

Electromagnetic radiation may be defined as a type of radiation that includes all possible kinds of radiation such as X-rays, gamma rays, radio waves, etc that consists of varied electric as well as the magnetic field.

Fluorescence may be defined as the process of emission of light by a specific substance that has initially absorbed light through the means of electromagnetic radiations. It is also known as luminescence.

The light that has been emitted by substances may be of a longer wavelength or shorter wavelength depending on the frequency of that radiation.

Therefore, Fluorescence occurs when a substance emits light after absorbing light or other electromagnetic radiation of a different wavelength. Thus, the correct option is C.

To learn more about Fluorescence, refer to the link:

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Answer:

87.5 m/s

Explanation:

The speed of a wave is given by

[tex]v=\lambda f[/tex]

where

v is the wave speed

[tex]\lambda[/tex] is the wavelength

f is the frequency

In this problem, we have

[tex]f=250 Hz[/tex] is the frequency

[tex]\lambda=0.35 m[/tex] is the wavelength

Substituting into the equation, we find

[tex]v=(0.35 m)(250 Hz)=87.5 m/s[/tex]

Potential energy=mass*acceleration due to gravity*height

= 8 000 000 * 9.8 * 50

= 3.92 * 10^9

The change in the potential energy of the Niagara falls is - 3.92 x 10⁹ J.

The given parameters;

The change in the potential energy of the waterfall is calculated as follows;

ΔP.E = mgh₂ - mgh₁

ΔP.E = mg(h₂ - h₁)

where;

ΔP.E = 8 x 10⁶ x 9.8(0 - 50)

ΔP.E = - 3.92 x 10⁹ J

Thus, the change in the potential energy of the Niagara falls is - 3.92 x 10⁹ J.

Learn more here:https://brainly.com/question/20388610

Answer:

= 500 Hz

Explanation:

A Period of a wave is the time taken for one complete oscillations by the wave particles. It is measured in seconds.

Frequency on the other hand is the number of complete oscillations covered by a wave in one second. It is measured in Hertz.

Period is the inverse of frequency.

That is; Period, T = 1/ frequency, f

T = 1/f and thus; f = 1/T

Therefore;

f = 1/0.002 seconds

 = 500 Hz

The frequency of a sound wave with a period of 0.002 seconds is 500 Hz. The provided speed of sound is useful for calculating the wavelength of the sound wave when combined with the frequency.

The frequency of a sound wave is given by the inverse of the period. Since the period of the sound wave is 0.002 seconds, to find the frequency, you would use the formula:

Frequency (f) = 1 / Period (T)

Frequency (f) = 1 / 0.002 seconds = 500 Hz

The speed of sound at room temperature, which is approximately 344 m/s, is not directly needed to calculate the frequency from the period. However, this information can be used to find the wavelength of the sound wave using the relationship:

Speed (v) = Frequency (f) × Wavelength (λ)

In this case, if you wanted to find out the wavelength of a sound with a frequency of 500 Hz, it would involve rearranging the formula to solve for the wavelength.

4.1: Temperature is not the same as heat. Heat is energy in transfer. ... Conduction is the transfer of thermal energy (heat in transfer) due to collisions between the molecules in the object. Collisions between adjacent atoms and molecules transfer kinetic energy from the warmer to the cooler object.

Answer:

Heat

Explanation:

Temperature is measurement of how hot or cold an object is. The net energy of a body is known as thermal energy. Energy in the form of Heat is transferred from one body to another because of difference in temperature. It is basically the transfer of thermal energy. The heat transfer takes place via conduction, convection or radiation.

The property of water that allows it to rise up in a plant is its  cohesion and adhesion properties

Capillarity, also known as capillary action, is the ability of a liquid to flow in narrow spaces, such as thin tubes or porous materials, due to the combined effects of adhesion, cohesion, and surface tension. This phenomenon occurs because the adhesive forces between the liquid and the solid surfaces are stronger than the cohesive forces between the liquid molecules.

Cohesion refers to the attraction between water molecules, which allows them to stick together, while adhesion refers to the attraction between water molecules and the walls of the xylem vessels in the plant.

These two properties work together to create a continuous column of water from the roots to the leaves of the plant, allowing it to transport water and nutrients to all parts of the plant.

This process is known as capillary action. Additionally, water's ability to evaporate through tiny openings in the leaves, called stomata, creates a pulling force, known as transpiration, that helps draw more water up the plant.

Learn more about capillary action at:

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The answer should be 0.2 :D

It's determined by the turns ratio. (A)

A.) Turns Ratio  is the answer

Has the most mass and density creating a gravitational field and pulling in the A and C with the lesser mass

Answer:  the answer is A

Explanation:

The best characterized example of multiple alleles in humans is the ABO blood groups, discussed in the Non-Mendelian Inheritance concept. Other human traits determined by multiple alleles would be hair color, hair texture, eye color, built, physical structures, etc.

Final answer:

Ground-based radio telescopes can collect data during both day and night and in all weather conditions (B). They are not affected by daylight or clouds as their observations are based on radio waves which can penetrate atmospheric barriers.

Explanation:

The correct answer to the student's question about when ground-based radio telescopes can collect data from distant objects in space is B. during the day or night and in any weather conditions. Unlike optical telescopes, radio telescopes are not limited by the presence of sunlight or the visibility conditions provided by the Earth's atmosphere. Radio waves can penetrate clouds, and because the Sun is not particularly bright at many radio wavelengths, radio telescopes can operate effectively during both daytime and nighttime. This capability greatly enhances the flexibility of radio astronomy compared to traditional optical astronomy, which can be susceptible to factors such as light pollution and weather conditions.

In contrast to optical observations that often require dry, dark skies and suffer from issues such as light scattering and 'bad seeing' due to atmospheric turbulence, radio telescopes can obtain high-resolution data with technologies like interferometers and very long baseline interferometry. For instance, the Very Long Array (VLA) and the Atacama Large Millimeter/submillimeter Array (ALMA) show the potential of these instruments in capturing precise cosmic phenomena. Moreover, radio astronomy has pushed the boundaries for ground-based observations, with advancements such as radar astronomy that involves both transmitting and receiving signals, enabling studies of celestial bodies within our solar system.

Final answer:

Ground-based radio telescopes can collect data during both the day and night and are not significantly affected by weather conditions. The correct answer is option (B).

Explanation:

Ground-based radio telescopes can collect data from distant objects in space during the day or night and in any weather conditions. Unlike optical telescopes that are impacted by weather and light conditions, radio telescopes are less affected because they collect and focus radio waves.

Weather conditions, such as clouds, or the presence of sunlight do not significantly hinder the operation of radio telescopes, making option B the correct answer: during the day or night and in any weather conditions.

➷ A dry cell changes chemical energy into electrical energy.

➶ Hope This Helps You!

➶ Good Luck (:

➶ Have A Great Day ^-^

↬ ʜᴀɴɴᴀʜ ♡

A dry cell converts chemical energy into electrical energy through redox reactions, during which the bonds of reactants are broken and new bonds are formed in the products, releasing energy that is harnessed as electrical current.

A dry cell changes chemical energy into electrical energy. This process is an example of an energy transformation where the energy stored within the chemical compounds of the dry cell is converted into an electrical current that can be used to power electrical devices. The construction of a dry cell battery includes chemical reactions which facilitate this change, and these reactions are described as spontaneous redox reactions where oxidation occurs at the anode and reduction at the cathode.

During this energy transformation, the potential energy stored within the chemical bonds of the reactants is being altered as the bonds are broken and new ones are formed in the products. It is this change in bond energy that is harnessed as electrical energy. However, it's worth noting that dry cells are considered primary batteries, meaning they are single-use and cannot be recharged due to their construction and the nature of the reactions involved.

Normally, when something gets colder, its electrical resistance gets smaller.  This is true of component-A in the drawing ... a simple resistor.

The component labeled 'B' has a strange and unusual symbol, and it's not a simple resistor.  It's a "thermistor".  The word "thermal" always has something to do with heat, and "thermistor" comes from "thermal resistor.  These things can be manufactured either way ... using different materials, a thermistor can be manufactured so that its resistance goes UP, or goes DOWN, or doesn'tchange when it gets colder.  I'm pretty sure that's what's going on here.

When this circuit gets colder, resistance-A gets smaller, but resistance-B either gets bigger OR doesn't change.  Either way, the voltage across B increases.  Since the LED is connected directly across B, the current through it depends on that voltage, so the LED gets more current, and becomes brighter, when A and B both get colder.

This circuit could actually be a very useful device.  If you took out the LED and put a voltmeter in its place, then the reading on the voltmeter would tell you the temperature of wherever you put the two components A and B.

The speed of sound varies depending on the medium through which the sound waves travel. In addition, it varies with changes in the temperature of the medium. This is because an increase in temperature means that the frequency of interactions between the particles that transport the vibration increases, hence this increase in activity increases the speed. That is why the speed of sound in a gas is not constant, but depends on the temperature.

So, if we want the speed of sound in a gas to increase, the temperature of that gas must increase, as well.

For example, the higher the air temperature, the greater the velocity of propagation. Experiments have shown that the speed of sound in air increases [tex]0.6m/s[/tex] for every [tex]1\°C[/tex] increase in temperature.

Therefore:

Answer:

Faster

Explanation:

The correct answer is A. In the direction of applied force. This is because acceleration occurs n the direction of applied force according to Newtons second law of motion which states that the acceleration of a body is directly proportional to the applied force and takes place in the direction of force.

Answer:

A. in the direction of the applied force

Explanation:

As per newton's first law of motion we know that object will not change in its state of motion till some external force is applied on it

So here we can say that when force is applied on an stationary object then the stationary object will move in the direction of applied force so change in the state of motion from rest state to moving state will occur and the direction of motion must be in applied force direction

So correct answer will be

A. in the direction of the applied force

0.16 m/s²

From one of the equation of linear motion;

vf2 - vi2 = 2ax

Where;

vf = final speed after traveling a distance x at constant acceleration; vf = 42 m/s

vi = initial speed = 0 (starts from rest)

a = constant acceleration while traveling a distance x

x = distance traveled at constant acceleration; x = 5.6 km = 5600 m

Therefore;

a = vf2/(2x)

  = 422/(2*5600) m/s²

  = 0.1575 m/s²

   ≅ 0.16 m/s²

Answer:

O.16 m/s2

Explanation:

When you take a long piece of wire, form it into a coil of several loops, and run a current through it, you get a magnetic field that runs straight along the axis of the coil.

This arrangement of a conductor and the current through it is called a "solenoid". (C)

A solenoid is a form of coil that produces a magnetic field when the electric current is passed through it. A solenoid is created when a conductive wire is used to make a loop.

A coil of wire that carries an electric current is a solenoid. A solenoid is an electromagnet formed by a helical coil of wire. Which generates a magnetic field when an electric current is passed through the coil .

In material or wire conductance is dependent on the number of mobile electrons present in the material or wire.

A conductive wire is a type of wire which has a sufficient amount of mobile electrons which are useful for producing conductance in the material.

silver, copper, iron, etc.

To learn more about the solenoid refer to the link ;

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= 5.102 m

The total energy, i.e. sum of kinetic and potential energy, is constant.

That is; E = KE + PE

Initially, PE = 0 and KE = 1/2 mv^2

At maximum height, velocity=0, thus, KE = 0 and PE = mgh

Since, total energy is constant (KE converts to PE when the ball is rising).

Therefore, KE = PE

or, 1/2 mv^2 = mgh

or, h = v^2 /2g

        = 10^2 / (2x9.8)

        = 5.102 m

Answer:

5.1

Explanation:

apex

An atom with five protons six neutrons and five electrons has an atomic mass of.

The element is boron with a atomic mass of 10.811 u