How long is a bus route across a small town

Answer: Endothermic  Reaction

Explanation: Photosynthesis requires energy right, making it an endothermic reaction. Light, generally sunlight, is the source of this energy. The process converts the sun's electromagnetic energy into chemical energy, which is then stored in chemical bonds in the plant. Which then leads to Photosynthesis occuring.

Answer:

The answer is "Option b"

Explanation:

The root of the wing is also known as the wing portion of its airframe nearest to a chamfer or winged spaceship. It's typically helpful to identify either a basic monoplane layout.

Answer:

Velocity

Explanation:

Velocity equals the original velocity... Plus

the acceleration is multiplied by time.

If the acceleration is multiplied by time then we get velocity as a result, therefore velocity has the same unit.

Pressure is measured as the amount of force applied in the one-meter of area. Pascal is used as the SI unit of it. The amount of pressure can be calculated by dividing the amount of force by the area of force applied. In relation to atmospheric pressure, the pressure is measured. Pressure does not represent any direction, so it comes under a scalar quantity. Many scientific and day-to-day life equipment use pressure principles like gauge meter thermometers in designing cars, ships, and every mechanical part.

We know that acceleration has an SI unit of m /[tex]s^{2}[/tex] So if we multiply the time with an acceleration whose unit is second we will get m / s which is the unit of velocity.

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Answer:

Explanation:

According to Newton's third law, every action has an equal and opposite reaction

so it tells us that the force exerted by the earth on the spacecraft is equal to the force exerted by the spacecraft on the earth. But we do not see the earth moving towards the spacecraft because the inertia of the spacecraft is very less than the inertia of the earth.

Recall that

[tex]{v_f}^2={v_i}^2+2a\Delta y[/tex]

where [tex]v_i[/tex] and [tex]v_f[/tex] are the lion's initial and final vertical velocities, [tex]a[/tex] is its acceleration, and [tex]\Delta y[/tex] is the vertical displacement.

At its maximum height, the lion has 0 vertical velocity, so we have

[tex]0={v_i}^2-2gy_{\rm max}[/tex]

where g is the acceleration due to gravity, 9.80 m/s², and we take the starting position of the lion on the ground to be the origin so that [tex]\Delta y=y_{\rm max}-0=y_{\rm max}[/tex].

Let v denote the initial speed of the jump. Then

[tex]v_i=v\sin(43.2^\circ)=\sqrt{2\left(9.80\dfrac{\rm m}{\mathrm s^2}\right)(3.25\,\mathrm m)}\implies\boxed{v\approx11.7\dfrac{\rm m}{\rm s}}[/tex]

The initial speed will be "11.7 m/s".

Given:

We know,

→ [tex]vf^2=v_i^2+2a\Delta y[/tex]

At max. height, vertical height be zero, then

→ [tex]0 = v_i^2-2gy_{max}[/tex]

or,

→ [tex]\Delta y = y_{max} -0 = y_{max}[/tex]

now,

The initial speed,

→ [tex]v_i = v \ Sin(43.2^{\circ})[/tex]

By substituting the values,

      [tex]= \sqrt{1\times 9.8\times 3.25}[/tex]

      [tex]= 11.7 \ m/s[/tex]

Thus the solution above is correct.

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Answer:

The required mass of ice is 12.5 kg.

Explanation:

Mass of hot tea, [tex]m_{t}[/tex] = 1.8 kg

Initial temperature of hot tea = 80°C = 353 K

Initial temperature of ice = 0.00°C = 273 K

Final temperature of mixture = 10°C = 283 K

Heat of fusion of ice, L = 334 kJ/kg

Specific heat capacity of tea, [tex]c_{t}[/tex] = Specific heat capacity of water = 4190 J/kg/K

Heat lost tea = Heat gained by ice

[tex]m_{t}[/tex][tex]c_{t}[/tex]Δ[tex]T_{t}[/tex] = [tex]m_{i}[/tex]L +  [tex]m_{i}[/tex][tex]c_{i}[/tex]Δ[tex]T_{t}[/tex]

[tex]m_{t}[/tex][tex]c_{t}[/tex]Δ[tex]T_{t}[/tex] = [tex]m_{i}[/tex] (L +  [tex]c_{i}[/tex]Δ[tex]T_{t}[/tex])

1.8 x 4190 x (353 - 283) = [tex]m_{i}[/tex](334 + (4190 x (283 - 2730))

1.8 x 4190 x 70 = [tex]m_{i}[/tex](334 + (4190 x 10))

527940 = 42234[tex]m_{i}[/tex]

[tex]m_{i}[/tex] = [tex]\frac{527940}{42234}[/tex]

    = 12.5004

[tex]m_{i}[/tex] = 12.5 kg

The required mass of ice is 12.5 kg.

The required amount of ice to bring the mixture to 10°C is 12.5 kg.

Given data:

The mass of hot tea is, m' = 1.8 kg.

The initial temperature of hot tea is, T = 80°C = 353 K.

The initial temperature of ice is, T' = 0°C = 273 K.

The final temperature of mixture is, T'' = 10°C = 283 K.

The heat of fusion of ice is, h = 334 kJ/kg.

The specific heat of water is, c = 4190 J/kg·K.

Apply the condition of thermal equilibrium which says that the heat released by the hot tea will be gained by the ice.

Heat lost by tea = Heat gained by ice

[tex]m'c(T-T'') = mh +mc(T''- T')[/tex]

Here, m is the mass of ice.

Solving as,

[tex]1.8 \times 4190 \times (353-283) = (m \times 334) +(m \times 4190(283- 273))\\\\527940 = 42234m\\\\m = 12.5 \;\rm kg[/tex]

Thus, we can conclude that the required amount of ice to bring the mixture to 10°C is 12.5 kg.

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Answer:

yes also good for pennies

Explanation:

For a point charge, how does the potential vary with distance from the point charge, r?

a constant

b. r.

c. 1/r.

d. [tex]1/r^2[/tex].

e. [tex]r^2[/tex].

Answer:

The  correct option is  C

Explanation:

Generally for a point charge the electric potential is mathematically represented as

    [tex]V  =  \frac{k  Q  }{r }[/tex]

Here we can deduce that the electric potential varies inversely with the distance i.e

      [tex]V  \  \alpha \  \frac{1}{r}[/tex]

So

The potential should vary with distance from the point charge r should be option c. 1/r.

The point charge with respect to the electric potential should be expressed in

V = KQ/r

Here we can say that the electric potential should be varied oppositely with the distance

Here is the electric file with respect to the point charge should be obtained from the Coulomb law. It should be radially outward from the point charge in all types of directions.

Therefore, the option c is correct.

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Answer:

Explanation:

To find the direction of the displacement vector, we have to solve for the ratio of both displacements, and furthermore the inverse tangent of the ratio.

Given data

200km east represents the x axis

70 km north represents y axis

the direction of the resultant is given as

∅= tan-1x/y

∅=tan-1 200/70

∅= tan-120/7

∅= tan-12.85

∅= 70.66°

hence the direction of the resultant is 70.66°

Answer:

The answer is below

Explanation:

NSPT is an acronym for the National Service Training Program. It deals with the individual's role in society building. Most specifically, the youths in areas such as physical, ethical, virtuous, intellectual, and social well-being.

One can serve the community through the NSTP subject, by involving in creating awareness in literacy and social welfare undertakings, mostly during emergencies and mishaps, or be part of the Citizen Armed Force.

Answer:

66 m/s

Explanation:

v=u+at

= 0 + 5.5 * 12

= 66 m/s

Answer:

just trace a picture of it.

Answer:

Option C (submitting the results to a scientific journal for a peer review) is the correct choice.

Explanation:

The other solutions offered are not relevant to the situation in question. But the latter is the best answer.

Answer:

it is letter c

Explanation:

Answer:

The magnitude of the average acceleration of the ball during this time interval is 10,449.44 m/s²

Explanation:

Given;

mass of super ball, m = 50 g

initial velocity of the ball, u = 25.5 m/s

final velocity of the ball, v = -21 m/s (re-bouncing backward)

time in contact with the wall, t = 4.45 ms = 0.00445 s

The average acceleration of the ball during this time interval is given by

[tex]a = \frac{dv}{dt} = \frac{v-u}{t} \\\\a = \frac{-21-25.5}{0.00445}\\\\a = -10449.44 \ m/s^2\\\\|a| = 10,449.44 \ m/s^2[/tex]

Therefore, the magnitude of the average acceleration of the ball during this time interval is 10,449.44 m/s²

Answer:

70 m/s

Explanation:

The watermelon will go pass superman at the instance when they are at the same distance from the top of the building.

Superman flies by with a constant velocity = 35 m/s

This distance where he will be overtaken by the watermelon will be = vt

where v is his velocity

t is the time the watermelon and superman are side by side

For the watermelon,

the initial velocity u = 0 m/s (since it starts from rest)

The distance where it is side by side with superman will be gotten from the equation

s = ut + [tex]\frac{1}{2}gt^2[/tex]

where is the distance down at which they meet

g is the acceleration due to gravity = 9.81 m/s^2

t is the time they meet

ut = 0, since u = 0 m/s

Equating this distance that they meet, we'll have

vt = [tex]\frac{1}{2}gt^2[/tex]

substituting values, we have

35t = [tex]\frac{1}{2}*9.81*t^2[/tex]

35 = 4.905t

t = 35/4.905 = 7.135 s

The watermelon's speed at this instant can be calculated from

v = u + gt

where v is the velocity at this instant

u = initial speed of the watermelon = 0 m/s

g is the acceleration due to gravity = 9.81 m/s^2

t is the time they meet side by side = 7.135 s

substituting values, we have

v = 0 + 9.81(7.135)

v = 69.99 ≈ 70 m/s

Answer:

the tension is the greatest force the system

Explanation:

For this exercise we use Newton's second law, in the equilibrium condition, this means that the acceleration is zero a = 0

X-axis (horizontal)

           FE - Tₓ = 0

          Fe = Tₓ

Y axis (vertical)

          [tex]T_{y}[/tex] - W = 0

          T_{y} = W

let's use trigonometry for the stress components

           sin θ = Tₓ / T

           Tₓ = T sin θ

           cos θ = T_{y} / T

           T_{y} = T cos θ

we substitute

           FE = T sin  θ  

           W = T cos  θ  

Since the sine and cosine function have values ​​between 0 and 1, the voltage must be greater than the electrical force and greater than the weight of the body.

Therefore the tension is the greatest force the system

Explanation:

Given that,

A ball is tossed straight up with an initial speed of 30 m/s

We need to find the height it will go and the time it takes in the air.

At its maximum height, its final speed, v = 0 and it will move under the action of gravity. Using equation of motion :

v = u +at

Here, a = -g

v = u -gt

i.e. u = gt

[tex]t=\dfrac{u}{g}\\\\t=\dfrac{30\ m/s}{9.8\ m/s^2}\\\\t=3.06\ s[/tex]

So, the time for upward motion is 3.06 seconds. It means that it will in air for 3.06×2 = 6.12 seconds

Let d is the maximum distance covered by it.

[tex]d=ut-\dfrac{1}{2}gt^2[/tex]

Putting all values

[tex]d=30(3.06)-\dfrac{1}{2}\times 9.8\times (3.06)^2\\\\d=45.91\ m[/tex]

Hence, it will go to a height of 45.91 m and it will in the air for 6.12 seconds.

Answer:

Explanation:

In this problem, we are going to solve for the velocity since what we are given as parameters are:

1. Distance covered s= 61m

2. time taken to cover the distance t= 7.8 secs

we know that the expression for velocity is given as

velocity= distance/time

We then substitute the given data into the formula to solve for velocity.

velocity= 61/7.8

velocity= 7.82 m/s

Answer:

Mass and speed.

Explanation:

The amount of kinetic energy of an object depends on the object's mass and speed.

Answer:

its a motion hope this helps

Explanation:

Answer:

c. the speed of light in a vaccum

Explanation:

The complete question is...

Samus is exploring the planet Zebes in the star system Metroid Prime (where the laws of physics are the same as on Earth and in our universe) in a ship moving at constant velocity. She turns on her headlamps as she encounters some strange fog. Ridley, the villain lying in wait, is at rest with respect to Samus. The speed of the light from Samus's headlamps as measured by Ridley depends most importantly on

a.​ the speed of light in the fog

b. the speed of light of Samus's ship

c. the speed of light in a vaccum

d. the speed of Samus with respect to the ether

e. the total addition of speeds of Samus's ship, the planet Zebes, and the system Metroid Prime.

According to relativity,

1. The laws of physics are the same for all observers in any inertial frame of reference relative to one another.

2. The speed of light in a vacuum is the same for all observers, regardless of their relative motion or of the motion of the light source.

This means that The speed of the light from Samus's headlamps as measured by Ridley depends most importantly on  the speed of light in a vacuum.

D  because it uses meters                                                                                              

Answer:

a. a = eb/2ε₀m b. b = 8.91 × 10⁻¹⁸ kg/V

Explanation:

a. Using Gauss' law

ε₀∫E.dA = q where E = electric field and q = charge enclosed.

Now , the charge has  a spherical symmetric charge density ⍴(r) = b/r, the total charge enclosed at distance r is given by

q = ∫∫∫ρ(r)r²sinθdrdθdΦ

q = ∫∫∫(b/r)r²sinθdrdθdΦ

q = ∫∫∫brsinθdrdθdΦ

we integrate r from 0 to r, θ from 0 to π and Φ from 0 to 2π

q = ∫∫br[∫sinθdθ]drdθdΦ

q = ∫∫br[-cosθ]drdΦ

q = ∫∫br-[cosπ - cos0]drdΦ

q = ∫∫br-[-1 - 1]drdΦ

q = ∫2brdr∫dΦ

q = ∫2brdr[Φ]

q = ∫2brdr[2π - 0]

q = 4πb∫rdr

q = 4πb[r²/2]

q = 4πb[r²/2 - 0]

q = 2πbr²

The let side of the equation is

ε₀∫E.dA = ε₀E∫dA = ε₀E4πr² since there is spherical symmetry

Equating both sides of the equation

ε₀E4πr² =  2πbr²

E =  2πbr²/ε₀4πr²

E = b/2ε₀

Now, the force acting on the electron , F = ma where m = mass of electron and a = acceleration of electron.

F also equal F = eE where e = electron charge and E = electric filed acting on electron

So, eE = ma

a = eE/m

a = eb/2ε₀m

b. I(f the electron is released from rest and is to reach the center of the earth, it covers a distance of the radius of the earth. Using s = ut + 1/2at² where s = radius of earth = R = 6400 km = 6.4 × 10⁶ m  , u = initial velocity = 0 m/s. and a = eb/2ε₀m. Substituting these values into s we have

R = 0t + 1/2(eb/2ε₀m)t²

R = ebt²/4ε₀m

making b subject of the formula, we have

b = 4ε₀mR/et²

when t = 12 s and e = 1.609 × 10⁻¹⁹ C, ε₀ = 8.854 × 10⁻¹² F/m and m = 9.109 × 10⁻³¹ kg.

Substituting these values into b we have

b = (4 × 8.854 × 10⁻¹² F/m × 9.109 × 10⁻³¹ kg × 6.4 × 10⁶ m)/(1.609 × 10⁻¹⁹ C × 12²)

b = 2064.67/ 231.696 × 10⁻¹⁸

b = 8.91 × 10⁻¹⁸ Fkg/C

b = 8.91 × 10⁻¹⁸ kg/V

Answer:

Polar covalent bond or just covalent bond

Explanation:

Answer:

A

Explanation:

dafdfsfsf

The tip of the thermometer is heated through radiation from the person's body. The particles of the thermometer tip then transfer heat by the convection of heat through the liquid inside of it. The particles inside the liquid then convert heat which causes the warmer particles to slow down, rise, and expand. Thus, the correct option is A.

The process of heat transfer from one part of a fluid to another part of the system or fluid through the actual movement of the particles of the fluid substance is called convection. Liquid and gas particles are heated through the process of convection.

The tip of the thermometer is heated by radiation from the person's body. The particles of the thermometer tip then transfer heat energy through convection of heat through the liquid inside of the thermometer. The particles inside the liquid then convert heat causing the warmer particles to slow down, rise, and expand in the thermometer.

Therefore, the correct option is A.

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Answer:

Travelled 18 km, they are 6 km from home.

Explanation:

12/2 (halfway) is 6km. So, 6 + 12 would be 18 km, total amount travelled. The total distance of the trip would be 24 km (12 km out, 12km back) if they travelled 12+6 (18km) then they only have 6 km more to go.

We have,

Initial velocity,u = 12 m/s

Final velocity,v = 16 m/s

Time taken,t = 8 s

Now,

[tex] \sf \: a = \frac{v - u}{t} [/tex]

[tex] \bf \implies \: a = \frac{16 - 12}{8} [/tex]

[tex] \bf \implies a = \frac{4}{8} [/tex]

[tex] \bf \implies \: a = 0.5 \: m {s}^{ - 2} [/tex]

Answer:

a)   S = 2.35 10³   J/m²2 ,  

b)and the tape recorder must be in the positive Z-axis direction.

the answer is 5

c) the direction of the positive x axis

Explanation:

a) The Poynting vector or intensity of an electromagnetic wave is

          S = 1 /μ₀ E x B

if we use that the fields are in phase

          B = E / c

we substitute

         S = E² /μ₀ c

let's calculate

        s = 941 2 / (4π 10⁻⁷  3 10⁸)

        S = 2.35 10³   J/m²2

b) the two fields are perpendicular to each other and in the direction of propagation of the radiation

In this case, the electro field is in the y direction and the wave propagates in the ax direction, so the magnetic cap must be in the y-axis direction, and the tape recorder must be in the positive Z-axis direction.

the answer is 5

C) The poynting electrode has the direction of the electric field, by which or which should be in the direction of the positive x axis

Answer:

The  value  is   [tex] m_i =  0.0234 \  kg   [/tex]

Explanation:

Generally from the calorimetry principle we have that

      [tex]Heat \ loss\ by\ ice  =  heat\ gained\ by\  water\[/tex]

So here heat gained water is mathematically represented as i.e

      [tex]Q_w  = m_w  *  c_w *  (T_w - T )[/tex]

substituting  0.150 kg for [tex]m_w [/tex] , 4200 J/kg.°C for  [tex]c_w [/tex] , 100°C for   [tex]T_w [/tex] and  75°C for  T

We have  

       [tex]Q_w  = 0.150  *  4200 *  (100 - 75 )[/tex]

         [tex]Q_w  =15750 \  J [/tex]

The Heat loss by the ice is mathematically represented as

      [tex]Q_i  = Q_1 + Q_2 +  Q_3[/tex]

Here     [tex]Q_1[/tex] is the energy to move the ice to its melting point which is evaluated as  

        [tex]Q_1  =  m_i *  c_i * ( T_o -T_i)[/tex]

Here  [tex]m_i [/tex] is the mass of  ice

       [tex]c_i [/tex] is the specific heat of ice with value  [tex]2.05 * 10^3   J/kg.°C[/tex]

          [tex]T_o [/tex] temperature of ice at melting point with value 0°C

           [tex]T_i [/tex] is the temperature of ice with value  -12°C

[tex]Q_2[/tex] is the energy to move the ice from its  its melting point to liquid which is evaluated as  

     [tex]Q_2  = m_i  *  L[/tex]

        Here  L  is the Latent heat of melting of ice with value    [tex]334 * 10^3   J/kg [/tex]

[tex]Q_3[/tex] is the energy to move the ice from  liquid  to  the equilibrium temperature  which is evaluated as        

       [tex]Q_1  =  m_i *  c_w * ( T -T_o)[/tex]

So  

     [tex]Q_i  = m_i [ c_i * ( T_o -T_i) + L  + c_w * ( T -T_o) ] [/tex]

=>   [tex]Q_i  = m_i [ 2.05 * 10^3 * ( 0 -(-12)) + 334 * 10^3  +  4200 * ( 75 - 0) ] [/tex]

From

 [tex]Heat \ loss\ by\ ice  =  heat\ gained\ by\  water\[/tex]

We have that

  [tex] m_i *  673600  =15750  [/tex]

=>     [tex] m_i =  \frac{15750}{673600}  [/tex]

=>     [tex] m_i =  0.0234 \  kg   [/tex]

The amount of ice at –12.0 °C must Ryan add to the thermos so that the equilibrium temperature of the water is 75 - 0.0233 kg

  heat is given by water   =   heat is received by ice

=>  

Given:

mass of boiling water [tex]m_w = 0.150 kg[/tex]

temperature of ice [tex]T_i = - 12^0C[/tex]

Known:

placing value in the formula:

=>  

=>

=   0.0233 kg

Thus, the amount of ice at –12.0 °C must Ryan add to the thermos so that the equilibrium temperature of the water is 75 - 0.0233 kg

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Answer:

83.6°

Explanation:

For the ray to be totally internally reflected, at the boundary, the angle of refraction is 90. Using the law of refraction where

n₁sinθ₁ = n₂sinθ₂ where n₁ = refractive index of prism = 1.5, θ₁ = critical angle in prism, n₂ = refractive index of air = 1 and θ₂ = refractive angle = 90°.

So, substituting these values into the equation,

n₁sinθ₁ = n₂sinθ₂

1.5 × sinθ₁ = 1 × sin90

1.5 × sinθ₁  = 1

sinθ₁ = 1/1.5

sinθ₁ = 0.6667

θ₁  = sin*(0.6667)

θ₁  = 41.8°

So, for total internal reflection, an incidence angle of 41.8° is required. So, a full convergence angle of 2 × 41.8° = 83.6° is required for the whole bundle of rays.