If the wavelength of a beam of light is decreased what happens to the momentum of the photons

Answer:

2 times

Explanation:

1st time on Feb. 20, 1962 at age 41

2nd time on Oct. 29, 1998 at age 77

The hypothesis is; A cat's heart rate changes while it is napping.

A hypothesis is a tentative statement which could be proved or disproved by subjecting it to rigorous experimentation.

A hypothesis is coined in line with the question that the experiment seeks to answer.

In this case, Fatima's question is; Does a cat's heart rate changes while it is napping?

So the hypothesis must be;  A cat's heart rate changes while it is napping.

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Answer:

192 mm/s

Explanation:

The frequency, speed  and wavelength  of any given wave are related to one another by the formula;

fλ = v

Where f denotes the frequency, v the speed or velocity and λ the wavelength

We are given that;

λ = 12

f = 16

v = 16 * 12 = 192 mm/s

Answer:

[tex]6.4\cdot 10^{-15} N[/tex]

Explanation:

The electric force exerted on the electron is given by:

[tex]F=qE[/tex]

where

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

E = 40000 V/m is the electric field

Substituting,

[tex]F=(1.6\cdot 10^{-19} C)(40000 V/m)=6.4\cdot 10^{-15} N[/tex]

By comparison, the gravitational force exerted on the electron is:

[tex]F=mg[/tex]

where

[tex]m=9.10939\cdot 10^{-31} kg[/tex] is the mass of the electron

g = 9.8 m/s^2 is the acceleration due to gravity

Substituting,

[tex]F=(9.10939\cdot 10^{-31} kg)(9.8 m/s^2)=8.93\cdot 10^{-30}N[/tex]

Final answer:

The force exerted on an electron by a 40000 V/m electric field is 6.408 × 10−15 N, which is significantly greater than the gravitational force on the electron (8.927 × 10−30 N). Therefore, gravitational forces on electrons are commonly neglected in physics.

Explanation:

The force exerted on an electron by an electric field can be calculated using the equation F = qE, where q is the charge of the electron and E is the electric field strength. Given the charge of the electron q = 1.602 × 10−19 C and the electric field strength E = 40000 V/m, we can calculate the force as:

F = (1.602 × 10−19 C) × (40000 V/m) = 6.408 × 10−15 N.

This force is much larger compared to the gravitational force on an electron, which is calculated by F = mg, where m is the mass of the electron and g is the acceleration due to gravity (9.8 m/s2). The mass of the electron m = 9.10939 × 10−31 kg, hence the gravitational force is:

F_gravity = (9.10939 × 10−31 kg) × (9.8 m/s2) ≈ 8.927 × 10−30 N.

The comparison between the electric force and gravitational force on an electron clearly shows that the electric force is significantly stronger, which is why gravitational forces on electrons are often neglected in physics calculations involving electric fields.

Answer:

A

Explanation:

This is why we use halogen lightbulbs for lighting at homes. They produce visible spectrum of electromagnetic waves hence allowing us to perceive through sight in the dark. The tungsten in the bulb heat ups through electrical resistance that causes it to emit heat energy. The heat causes electrons to escape from the filament forming visible light.

ultra violet disinfecting wand

Answer:

[tex]2.41\cdot 10^{13}Hz, 1.24\cdot 10^{-5}m[/tex]

Explanation:

The energy of the photon must be equal to 0.1 eV, so let's convert this value into Joules first:

[tex]E=0.1 eV \cdot 1.6\cdot 10^{-19} J=1.6\cdot 10^{-20}J[/tex]

The energy of the photon is related to its frequency by

[tex]E=hf[/tex]

where h is the Planck constant and f is the frequency. Substituting,

[tex]f=\frac{E}{h}=\frac{1.6\cdot 10^{-20}J}{6.63\cdot 10^{-34}Js}=2.41\cdot 10^{13}Hz[/tex]

And now we can find the wavelength of the photon, which is given by

[tex]\lambda=\frac{c}{f}[/tex]

where c is the speed of light. Substituting,

[tex]\lambda=\frac{3\cdot 10^8 m/s}{2.41\cdot 10^{13} Hz}=1.24\cdot 10^{-5}m[/tex]

Answer

Human activity is impacting biodiversity.

Explanation:

Human activity is impacting because due to overpopulation and poverty we are changing our life style which have negative impact on climate.

Answer:

Explanation:

Biodiversity can be define as the variability of life on planet earth. It typically measures the variations in terms of types of species, ecosystem levels and genetic variations. The terrestrial biodiversity is typically greater near the equator which is because of high primary productivity and warm climatic conditions.

The human activities impact the biodiversity by occupying the area where the natural biodiversity sustains like forests, grasslands and others. Other activities like hunting, poaching and wildlife trafficking can lead to the extinction of many wildlife species. The plants and trees are removed for their wood, medicine and for other needs this has lead to the decrease in abundance of valuable floral species.

Answer:

C) 3.0 joules

Explanation:

The kinetic energy of the ball is given by:

[tex]K=\frac{1}{2}mv^2[/tex]

where

m = 0.059 kg is the mass of the ball

v is its speed

At the beginning, v = 26 m/s, so the initial kinetic energy is

[tex]K=\frac{1}{2}(0.059 kg)(26 m/s)^2=20 J[/tex]

after the rebound, v = 24 m/s, so the final kinetic energy is

[tex]K=\frac{1}{2}(0.059 kg)(24 m/s)^2=17 J[/tex]

So, the energy that was lost is

[tex]E=20 J-17 J=3 J[/tex]

I think this is TRUE. Ph is calculating the acidic acids in water. And you need to know the concentration of hydronium ions. Hope this helped !

A) [tex]5.34\cdot 10^5 m/s[/tex]

The minimum speed of the electron occurs when the electron loses the maximum energy: this occurs when the electron excites the atom from 0.0 eV to 4.0 eV, because in this case the energy given to the atom is maximum.

The energy given by the electron to the atom is equal to the difference between the two energy levels:

[tex]\Delta E= 0.0 eV - 4.0 eV =-4.0 eV = -6.4\cdot 10^{-19}J[/tex]

This is equal to the kinetic energy lost by the electron:

[tex]K_f - K_ i = \Delta E\\\frac{1}{2}m(v^2-u^2) = \Delta E[/tex]

where

m is the electron's mass

v is the final speed of the electron after the collision

[tex]u=1.3\cdot 10^6 m/s[/tex] is the speed of the electron before the collision

Solving for v, we find

[tex]v=\sqrt{ \frac{2\Delta E}{m}+u^2}=\sqrt{\frac{2 (-6.4\cdot 10^{-19} J)}{9.11\cdot 10^{-31} kg}+(1.3\cdot 10^6 m/s)^2}=5.34\cdot 10^5 m/s[/tex]

B) [tex]1.16\cdot 10^6 m/s[/tex]

The maximum speed of the electron occurs when the electron loses the minimum amount of energy: this occurs when the electron excites the atom from 3.0 eV to 4.0 eV, because in this case the energy given to the atom is minimum.

The energy given by the electron to the atom is equal to the difference between the two energy levels, so in this case we have:

[tex]\Delta E= 3.0 eV - 4.0 eV =-1.0 eV = -1.6\cdot 10^{-19}J[/tex]

And so, this time the final speed of the electron after the collision will be given by:

[tex]v=\sqrt{ \frac{2\Delta E}{m}+u^2}=\sqrt{\frac{2 (-1.6\cdot 10^{-19} J)}{9.11\cdot 10^{-31} kg}+(1.3\cdot 10^6 m/s)^2}=1.16\cdot 10^6 m/s[/tex]

The minimum speed the electron could have after collision is 6.62x10^7 m/s, and the maximum speed is 2.96x10^7 m/s.

The electron can gain energy by absorbing a photon with an energy equal to the difference between the final and initial energy states of the atom. The minimum speed is reached when the electron absorbs the photon with the smallest energy, which corresponds to the energy difference between the initial and first excited state of the atom.

The energy spacing between the lowest energy state (0.0 eV) and the first excited state (3.0 eV) is 3.0 eV. Converting this energy to joules, we get 4.8 x 10^(-19) J. Using the equation E = 1/2 mv^2, we can calculate the minimum speed by solving for v:

v = √(2E/m)

where E is the energy change (4.8 x 10^(-19) J) and m is the mass of the electron (9.11 x 10^(-31) kg). Plugging in the values, we find v = 6.62 x 10^7 m/s.

The energy spacing between the lowest energy state (0.0 eV) and the second excited state (4.0 eV) is 4.0 eV, which is equivalent to 6.4 x 10^(-19) J. Using the same equation, we can calculate the maximum speed:

v = √(2E/m)

where E is the energy change (6.4 x 10^(-19) J) and m is the mass of the electron (9.11 x 10^(-31) kg). Plugging in the values, we find v = 2.96 x 10^7 m/s.

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Answer:

first is Diffraction and is when waves spread out because of going through a narrow gap

second is Refraction literally stole that image off the internet when waves deflect traveling through different density

third reflection when waves bounce off a surface without them being absorbed

Answer:

1.when a light ray bends around corners it's called (3.)Diffraction

2.when a light bounces off a surface it is called a (1.) reflection

3.when a light ray changes direction as it enters a new medium this is called (2.)refraction

Answer:

0 J

Explanation:

Kinetic energy is defined as:

KE = 1/2 m v²

where m is mass and v is velocity.

The car starts at rest, so it has zero velocity.  Therefore, its initial kinetic energy is 0 J.

Answer:

1.D

2. False

3.True

4.True

5.C

6.B

7.C

8.B

9.A

10.True

11.D

12.B

13.A

If you have any questions more,you can ask me later

Answer:

These are all correct and verified

1.D

2. False

3.True

4.True

5.C

6.B

7.C

8.B

9.A

10.True

11.D

12.B

13.A

Explanation:

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In metallic bonds, the valence electrons from the s and p orbitals of the interacting metal atoms delocalize. That is to say, instead of orbiting their respective metal atoms, they form a “sea” of electrons that surrounds the positively charged atomic nuclei of the interacting metal ions

Answer:

Metals possess low ionisation energy hence it loses electrons easily. The nucleus and the inner shell electrons is called the kernel.

The electron which gets lost leaves the influence of one kernel and moves towards the other.

Thus the electrons will be in constant movement and gets delocalized.

The electrostatic forces between the positive kernel and the sea of mobile electrons is called as metallic bond.

Metal atoms possess this type of attractive forces in between them.

For example the metal atoms of a sheet of copper possess this type of chemical bond between the atoms.

Thus, Metallic bonding is a type of chemical bonding that rises from the electrostatic attractive force between conduction electrons and positively charged metal ions

Answer:

This is because the microwave oven heats the food by heating the water molecules that compose it.

This is achieved by increasing the vibration amplitude of the water molecules and their kinetic energy, therefore, increasing their temperature.

So, if the element that gets into the microwave oven does not contain water (as is the case of an empty paper plate), it will not heat up.

Answer:

Explanation: the answer is 1,425

Newton's 3rd law: The force that A exerts on B is equal and opposite (in direction) to the force that B exerts on A.

Substitute the words "the earth" for A and "the book" for B.

A book rests on a table. The earth pulls down on the book through the weight force then the force is the reaction force to the weight force would be the force of the table on the book. Therefore the correct answer is option 2.

Newton's third law of motion explains that forces exist in pairs. It states that for every action force there exist equal and opposite reaction forces, these pairs of forces are equal in magnitude but opposite in direction.

Reactive force is a kind of force that acts in the opposite direction from the force that is applied. For instance, when active force is applied to a stationary wall, the wall will exert reactive force in the opposite direction.

Active and reactive forces always act in pairs and are equal in their magnitude but opposite in direction.

As per the given problem, on a table, there is a book. The weight of the earth pulls down on the book, and then the force of the table on the book acts as a reaction to the weight force. Therefore the correct answer is option 2.

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The magnitude of the block's acceleration at the top of a frictionless circular loop consists of the centripetal acceleration required to maintain its circular path and the acceleration due to gravity. At the top of the loop, the total acceleration is thus equal to the acceleration due to gravity, approximately 9.8 m/s² downwards.

You are asking about the magnitude of the block's acceleration at the top of a frictionless circular loop. In physics, acceleration of an object moving in a circle can be described by the centripetal acceleration formula a = v^2/r, where v is the velocity of the object and r is the radius of the circle. At the top of the loop, besides the centripetal acceleration, the block is also experiencing acceleration due to gravity, acting downwards. So, the total acceleration is a combination of the centripetal acceleration needed to stay in a circular path, and the acceleration due to gravity.

To understand this concept, we can use Newton's second law in the context of circular motion. When the small block is at the top of the loop, the only force acting towards the center of the circle, which provides the centripetal force, is the weight of the block (mg, where 'm' is the mass of the block and 'g' is the acceleration due to gravity). Therefore, at the top of the loop, the centripetal force equals the gravitational force (Fc = mg), and thus the centripetal acceleration is equal to the acceleration due to gravity (ac = g). This results in the block's total acceleration at the top of the loop being g, or approximately 9.8 m/s² downwards.

Answer:

An estuary is the area where a river meets the sea or ocean, where fresh water from the river meets salt water from the sea.

Answer:

during the last interglacial period, the retreating of glaciers created massive valleys. When these glaciers melted the water filled up the valleys and thus created the first estuaries

Explanation:

Answer:

No

Explanation:

Let's assume the gas pressure is constant. Then we can use Charle's law, which states that the volume of the gas is proportional to the absolute temperature (in Kelvin):

[tex]\frac{V}{T}=const.[/tex]

This can be rewritten as

[tex]\frac{V_1}{T_1}=\frac{V_2}{T_2}[/tex]

where we have

[tex]T_1 = 100^{\circ}+273 =373 K[/tex]  is the initial temperature of the gas

[tex]T_2 = 50^{\circ}+273 =323 K[/tex]  is the final temperature of the gas

Re-arranging the previous equation, we find

[tex]V_2=V_1 \frac{T_2}{T_1}=V_1 \frac{323 K}{373 K}=0.87 V_1[/tex]

so, the volume of the gas decreases by a factor 0.87.

Answer:

Divergent plate margins

Explanation:

Divergent plate margins are constructive zones on the surface of the earth. They are constructive in the sense that new materials are brought to the surface from within the crust.

An example of such is the mid-altlantic ridge. Here as two plates pull apart, new melts up-wells and finds a way to get to the surface where they cool and solidify.

The energy transferred between objects with different temperatures is

Thermal energy

Thermal energy refers to the energy contained within a system that is responsible for its temperature. Heat is the flow of thermal energy.

Thermal energy get transfer from higher to lower temperature object in order to maintain equilibrium .

Thermal energy transfers occur in three ways: through conduction, convection, and radiation

The energy transferred between objects with different temperatures is

Thermal energy

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Heat is the energy transferred between two objects at different temperatures until they reach the same temperature. This spontaneous energy transfer is driven by the temperature difference and does not involve work, as there is no force acting through a distance.

The energy transferred between objects with different temperatures is known as heat. When two objects at different temperatures are in contact, energy flows from the hotter object to the colder one until they reach thermal equilibrium—that is, they are at the same temperature. This transfer of energy is a spontaneous process and occurs due to the difference in temperature.

Internal energy plays a role in this process; an object with a higher temperature has higher internal energy. When energy transfers, there is no work done because no force is acting through a distance. The presence of a temperature difference is what drives the energy transfer, and once the temperatures equalize, this energy transfer ceases.

Heat is one of the ways through which a system's total energy can change, as per Enduring Understanding 4.C of interactions with systems. This is a fundamental concept in the study of thermodynamics and an essential part of understanding how energy moves within the universe.

Answer:

Increasing the area of the plates will increase the capacitance of a parallel-plate capacitor.

Decreasing the separation between the plates will increase the capacitance of a parallel-plate capacitor.

Explanation:

The capacitance of a parallel-plate capacitor is given by

[tex]C=\frac{\epsilon_0 A}{d}[/tex]

where

[tex]\epsilon_0[/tex] is the vacuum permittivity

A is the area of the plates

d is the separation between the plates

We notice that:

- The capacitance is directly proportional to A, the area of the plates

- The capacitance is inversely proportional to d, the separation between the plates

Therefore, the correct statements are:

Increasing the area of the plates will increase the capacitance of a parallel-plate capacitor.

Decreasing the separation between the plates will increase the capacitance of a parallel-plate capacitor.

Answer:

It is NOT C. It is directly proportional, so the capacitance decreases as the distance increases.

Explanation:

Answer:

the speed of particles decreases as the states of matter change. to support: in a solid, the speed of particles is slow. in a liquid, the speed of particles is mediocre. and in a gas, the speed of particles is fast since they are spread out.

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Explanation:

Answer:

Because they are small and they shrink when they have microwaves hit towards them

Explanation:

The angle is preferred to be small in high resolution optical instruments to make it more noticeable.

Explanation:

The capability of any device that form image can be an optical or radio telescope, camera, microscope or eye that can distinguish small details in the object is called angular resolution.  

This is the main component for image resolution. The accuracy in the measurement with accordance of space is spatial resolution. It is associated with the angular resolution.  

The ability of viewing an object in a distinct manner requires smaller angular distance and this is known as resolving power. When we need to view an object in an accurate and in a distinct manner, it is required to be in  smaller angle between the viewing objects.

(a) The child + the wagon

Explanation:

Newton's second law states that the net force applied on a system is equal to the mass of the system times its acceleration:

[tex]\sum F = ma[/tex] (1)

Here we are interested in calculating the acceleration of the child, a. However, the child moves together with the wagon - this means that we can consider the child+wagon as a single system, moving with an acceleration of a, under a net force of F,  which is the result of all the forces applied to the child+wagon.

(b) See attachment

There are 5 forces in total acting on the child+wagon system:

- The force exerted by the first child, 75.0 N, here to the left

- The force exerted by the second child, 90.0 N, here to the right

- The frictional force of 12.0 N, to the left (the direction of the frictional force is opposite to the direction of motion; since the larger force is the one exerted to the right, the system would move to the right, so the frictional force acts to the left)

- The weight of the child+wagon system, downward, which is equal to

W = mg

where m=23.0 kg is the total mass and g=9.8 m/s^2 is the acceleration due to gravity

- The normal reaction of the surface, upward, equal in magnitude to the weight

(c) 0.13 m/s^2

We are only interested in the forces acting along the horizontal direction, since the two forces in the vertical direction are in equilibrium.

The resultant force along the horizontal direction is

[tex]\sum F = 90.0 N - 75.0 N - 12.0 N =3.0 N[/tex]

By using Newton's second law (eq. 1), we can find the acceleration:

[tex]a=\frac{\sum F}{m}[/tex]

where

m = 23.0 kg is the mass of the child+wagon

Substituting,

[tex]a=\frac{3.0 N}{23.0 kg}=0.13 m/s^2[/tex]

(d) 0

In this case, the magnitude of the friction is 15.0 N. This means that the net force acting on the system is

[tex]\sum F = 90.0 N -75.0 N -15.0 N =0[/tex]

So, the forces along the horizontal direction are balanced as well. According to eq.(1), this also means that the acceleration along the horizontal axis will also be zero:

[tex]a=\frac{0}{23.0 kg}=0[/tex]

a) Child plus wagon

b) Refer the attached diagram.

c) [tex]\rm a = 0.13 \; m/sec^2[/tex]

d) a = 0

Given :

The first child exerts a force of 75 N, the second a force of 90 N.

Friction = 12N

Mass of the third child plus wagon is 23 kg.

Solution :

a) According to Newton's second law,

F = ma

Here we are interested in calculating the acceleration (a) of the child. However, the child moves together with the wagon - this means that we can consider the child plus wagon as a single system, moving with an acceleration of a, under a net force of F, which is the result of all the forces applied to the child plus wagon.

b) Refer the attached Diagram.

c) F = ma

 90 - 75 - 12 = 23a

 [tex]\rm a = \dfrac{3}{23}= 0.13\;m/sec^2[/tex]

d) F = ma

   90 - 75 - 15 = 23a

  a = 0

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Answer: Valence electrons

Valence electrons are those that are in the outermost or superficial layer of the atom, which means they have the highest energy compared to those of the inner layers.

Because of their position, it is easier for these electrons to interact with other atoms of their own element as well as different elements. This is done through the process of forming bonds when being attracted by other atoms.

Answer:

1020 m/s

Explanation:

The moon is in the earth's orbit, meaning it is in free fall.  Its centripetal acceleration is equal to the acceleration due to gravity.

v² / r = GM / r²

v² = GM / r

v = √(GM / r)

G is the universal gravitational constant, M is the mass of the earth, and r is the distance from the earth's center to the moon's center.

G = 6.67×10⁻¹¹ m³/kg/s²

M = 5.97×10²⁴ kg

r = 3.84×10⁸ m

v = √( (6.67×10⁻¹¹) (5.97×10²⁴) / (3.84×10⁸) )

v = 1020 m/s

Answer:

NUCLEAR BOMB

Explanation:

According to Einstein's theory of relativity, a black hole is a "singularity" that consists of a region of the space in which the density of matter tends to infinity. In consequence, this huge massive body has a gravitational pull so strong that not even light can escape from it.  

In addition, "the surface" of a black hole is called the event horizon, which is the border of space-time in which the events on one side of it can not affect an observer on the other side.  

In other words, at this border also called "point of no return", nothing can escape (not even light) and no event that occurs within it can be seen from outside.  

In this sense, and according to the relativity, it is possible to determine where a black hole is if it is "observed" an enormous amount of energy released. So, in accordance to this, galaxies like ours must have a black hole in its center.  

On the other hand, the elliptical galaxy Mesier 87 (also called Virgo A, but from now on M87) was showing the above described behaviour, with enormous jets of high-energy particles shooting away from its vicinity . This was imaged by the Hubble Space Telescope years ago; that is why astronemers were hypothesizing about the existence of a massive black hole there.  

Well now, on April, 10th 2019 this was demonstrated with the publication of the image, for the first time, of the event horizon of the black hole in M87. This is the first time in human history a picture of a black hole is taken.  

This was done by the huge effort of diverse scientist and by the syncronization of eight radio telescopes scattered across the Earth (located at: Hawaii, Spain, Chile, Mexico, Arizona and the South Pole), which took the same point of the sky at the same time.