On a flat, level road, a 1500-kilogram car travels around a curve having a constant radius of 45 meters. The centripetal acceleration of the car has a constant magnitude of 3.2 meters per second squared. Calculate the car's speed as it travels around the curve

Answer:

Destructive interference

Explanation:

Destructive interference occurs when waves come together in such a way that they completely cancel each other out. When two waves interfere destructively, they must have the same amplitude in opposite directions.

Answer:

Destructive interference

Explanation:

Destructive interference occurs when waves come together in such a way that they completely cancel each other out. When two waves interfere destructively, they must have the same amplitude in opposite directions.

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Answer:

Solar radiation

Explanation:

Gases such as methane , ozone, and Carbon dioxide are known as the greenhouse gases. When the gases are heated up they usually build up in the greenhouse effect and after a while they enter the atmosphere as solar radiation.

It is important to note that the release of the gases is usually the first(initial) release of the gases into the atmosphere.

Answer:

infrared radiation within the sun's radiation.

Explanation:

The solar radiation that gets to earth contains about 3 electromagnetic waves which includes visible rays, infrared rays, ultraviolet rays. Infrared rays carries heat through space and is the part of the solar radiation that carries heat into the earth's atmosphere.

Answer:

The sound of a whale is especially low frequency, but there is a species of whale the Whalien whose frequency is 52 Hz, if the propagation speed of the wave is 1400m / s What will be its period in the water and the air? And what will be the wavelength in each medium? Remember that the propagation speed in air is 340m / s

Explanation:

From wave equation, the speed, wavelength and frequency is related using

V = fλ

Where

V is the speed

f is the frequency

And λ is the wavelength

So,

The frequency of the whale is

f = 52Hz

The speed in water is V_w = 1400m/s

The speed in air is V_a = 340m/s

We want to find the period in each medium, the period is related to the frequency and since the frequency is constant.

Then, period in equal in both medium

T = 1 / f

T_w = T_a = 1 / f

T = 1 / 52

T = 0.0192 seconds

We want to find the wavelength in each medium

For water,

V = fλ

V_w = f × λ_w

Then,

λ_w = V_w / f.

λ_w = 1400 / 52 = 26.92 m

The wavelength in water is 26.92m

Now, in air

V = fλ

V_a = f × λ_a

Then,

λ_a = V_a / f.

λ_a = 340 / 52 = 6.54 m

The wavelength in air is 6.54 m

In Spanish

De la ecuación de onda, la velocidad, la longitud de onda y la frecuencia se relacionan usando

V = fλ

Dónde

V es la velocidad

f es la frecuencia

Y λ es la longitud de onda

Entonces,

La frecuencia de la ballena es

f = 52Hz

La velocidad en el agua es V_w = 1400m / s

La velocidad en el aire es V_a = 340m / s

Queremos encontrar el período en cada medio, el período está relacionado con la frecuencia y dado que la frecuencia es constante.

Luego, período igual en ambos medios

T = 1 / f

T_w = T_a = 1 / f

T = 1/52

T = 0.0192 segundos

Queremos encontrar la longitud de onda en cada medio

Para agua,

V = fλ

V_w = f × λ_w

Entonces,

λ_w = V_w / f.

λ_w = 1400/52 = 26,92 m

La longitud de onda en el agua es de 26,92 m.

Ahora en el aire

V = fλ

V_a = f × λ_a

Entonces,

λ_a = V_a / f.

λ_a = 340/52 = 6,54 m

La longitud de onda en el aire es de 6.54 m.

Answer:

Can we please have the options for the drop down menu

Explanation:

Answer:

Before a tornado warning occurs, you should Have a disaster plan ready

If you’re indoors during a tornado, you should go to the basement

If you’re outdoors during a tornado, you should  lie in a ditch or low-lying ditch

Answer:

Reflectance of the surface of a material is its effectiveness in reflecting radiant energy.

Explanation:

It is the fraction of incident electromagnetic power that is reflected at an interface. The reflectance spectrum or spectral reflectance curve is the plot of the reflectance as a function of wavelength.

Answer:

Explanation:

Mechanical Advantage = Outputforce / inputForce

outputforce = 400 X 3 = 1200

Mechanical Advantage = 1200 / 100

MA = 12

Answer:

A) 46.43 m/s

B) Acceleration = 2395.27 m/s²

C) Average force in Newton's = 5988.18 N

Ratio of this force to weight = 244.14

Explanation:

We are given that;

Mass; m = 2.5 kg

Height reached by firework; y = 110m

Length of tube;L = 0.45m

A) According to kinematic equation;

v² = u² + 2gs

In this case, v = 0 and because gravity is acting against motion. Thus,

0 = u² - 2gy

u² = 2gy

u = √2gy

Plugging in the relevant values ;

u = √(2 x 9.8 x 110)

u = √2156

u = 46.43 m/s

B) we want to find the acceleration with u = 0 m/s and v = 46.43 m/s in the tube. The tube length is 0.45m

Thus,

v² = u² + 2aL

46.43² = 0 + (2•a•0.45)

2155.7449 = 0.9a

acceleration, a = 2155.7449/0.9 = 2395.27 m/s²

C) From Newton's law of motion,

Average Force; F = ma

Thus, F = 2.5 x 2395.27 = 5988.18 N

We are told to express it as a ratio to the weight of the shell.

Thus, ratio = F/W

Weight = mg and force = ma

Thus, F/W = ma/mg = a/g = 2395.27/9.8 = 244.42

Answer:

a)  the initial velocity ot the firework shell is 46.5m/s

b)  the average acceleration of the shell in the tube is 2.4 × 10³m/s²

c)  the average force on the shell in the tube is 2.4 × 10³m/s²

the ratio of the average force acting on the shell to the weight of the shell is 244.65 : 1

Explanation:

Given that;

Mass, m = 2.5 kg

Height, h = 110m

Length , L = 0.45m

The expression of the relationship between velocity and distance kinematic law of motion

[tex]v^2 = u^2 - 2gh[/tex]

[tex]u = \sqrt{v^2+2gh}[/tex]

At maximum height the velocity of the firework shell is zero

That is why the final velocity of the firework shell is zero

[tex]u = \sqrt{2gh}[/tex]

[tex]u = \sqrt{2\times 9.81 \times 110} \\\\u = 46.5m/s[/tex]

Hence, the initial velocity ot the firework shell is 46.5m/s

b)

[tex]v^2 = u^2 + 2as[/tex]

[tex]a = \frac{v^2 - u^2}{2s}[/tex]

The initial velocity of the shell in the tube is zero

[tex]a = \frac{v^2}{2s} \\[/tex]

substitute 46.5m/s for v and 0.450 for s

[tex]a = \frac{46.5^2}{2\times 0.450} \\\\a = 2.4 \times 10 ^3m/s^2[/tex]

Hence , the average acceleration of the shell in the tube is 2.4 × 10³m/s²

c)

From Newton's law of motion,

Average Force, F = ma

substitute 2.50kg for m and 2.4 × 10³m/s²  for a

F = ( 2.50kg )(2.4 × 10³m/s²)

F = 6 × 10³N

Hence, the average force on the shell in the tube is 2.4 × 10³m/s²

Calculate the weight of the shell

W = mg

substitute 2.50kg for m and 9.81m/s² for g

W = (2.50kg)( 9.81m/s²)

W = 24.525N

Calculate the ratio of the average force acting on the shell in the tube to the weight of the shell

[tex]Ratio = \frac{F}{W}[/tex]

substitute 24.525N  for W and 6 × 10³N for F

[tex]Ratio = \frac{6 \times 10^3N}{24.525N} \\\\= 244.65[/tex]

Hence , the ratio of the average force acting on the shell to the weight of the shell is 244.65 : 1

Answer:

In physical sciences, mechanical energy is the sum of potential energy and kinetic energy. It is the energy associated with the motion and position of an object.

Explanation:

Answer:

Mechanical Energy is Kinetic energy + the Potential Energy.

Explanation:

ME=KE+PE

Answer:

Width of central maximum will be [tex]7.423\times 10^{-12}m[/tex]

Explanation:

We have given width of the slit [tex]D =0.0537mm=5.37\times 10^{-5}m[/tex]

Wavelength of light [tex]\lambda =719nm=719\times 10^{-9}m[/tex]

Distance of screen from slit D = 2.77 m

Angle to first minimum [tex]sin\Theta =\frac{\lambda }{d}=\frac{719\times 10^{-19}}{0.0537\times 10^{-3}}=1.34\times 10^{-12}[/tex]

So width of the central maximum

w= [tex]2y=2\times Dsin\Theta =2\times 2.77\times 1.34\times 10^{-12}=7.423\times 10^{-12}m[/tex]

So width of central maximum will be [tex]7.423\times 10^{-12}m[/tex]

Answer:

  Z

Explanation:

The purple and yellow rays from the same point on the object are shown converging at point Z, where the image will be.

Answer:

Z

Explanation:

got it right on edge

Answer:

Explanation:

We want to know the percentage of the radio active element after 7half life

Let assume the original mass or quantity of the radioactive element is No

After first half life it remains No/2

Second half life No/4

Third half life No/8

Fourth half life No/16

Fifth half life No/32

Sixth half life No/64

Seventh half life No/128

So after the seventh half life the radioactive element has decay to No/128

Then, the that remain is

The remaining amount / Original amount × 100

%remain = (No/128 / No) × 100

No cancel No

%remain = 100/128

%remain = 0.78%

Answer:

The pendulum only has potential energy.

Explanation:

A pendulum is a weight that is tied to a rope and is also suspended with a pivot and that can swing freely. Said pendulum moves at an angle of 30 degrees. Then he is released. The pendulum moves with a constant amplitude. In this way, it reaches the maximum amplitude when its angle is 30 degrees. The angles mentioned in the exercise are the extremes. At each point, the total energy is conserved. Total energy is defined as the sum of the kinetic energies plus the potential energy. The kinetic energy of the pendulum is equal to zero in the extreme positions, therefore, only the total energy is equal to the potential energy.

Final answer:

At −30°, a pendulum has both potential and kinetic energy, with energy conversion governed by the conservation of mechanical energy.

Explanation:

When a pendulum is at an angle of −30°, it possesses both potential energy and kinetic energy. Potential energy is due to its height above the lowest point of the swing and kinetic energy due to its motion. In the absence of friction, no thermal energy is produced.

Using conservation of mechanical energy, we know that as the pendulum swings towards −30°, some of the potential energy is converted into kinetic energy. At the highest points in its swing (±30°), the pendulum has maximum potential energy and zero kinetic energy. When it passes through the vertical, it has maximum kinetic energy and minimum potential energy. At −30°, the pendulum is on its upward swing, thus it starts regaining potential energy and losing kinetic energy.

Answer: D

D. Sound waves carry energy parallel to the motion of the wave, while EM waves carry energy perpendicular to it.

Explanation:

Sound is a longitudinal wave in which the displacement of the medium is in the same direction as, or the opposite direction to, the direction of propagation of the wave

While electromagnetic wave are transverse wave. A moving wave whose oscillations are perpendicular to the direction of the wave or path of propagation. So the correct answer is D. Sound waves carry energy parallel to the motion of the wave, while EM waves carry energy perpendicular to it

The minimum potential difference must be supplied by the ignition circuit to start a car is -1800 V

Explanation:

Given data,

E= 3 ×10 ⁶ Δx=0.06/100

We have to find the minimum potential difference

E= -ΔV/Δx

ΔV=- E × Δx

ΔV =-3 ×10 ⁶ . 0.06/100

ΔV=-1800 V

The minimum potential difference must be supplied by the ignition circuit to start a car is -1800 V

Answer:

I can confirm that is the answer

Explanation:

I did the question

Answer:

4

Explanation:

Mechanical Advantage is given as a ratio of the force a machines gives out to the force that it receives.

Simply put, it is the ratio of output force to input force:

[tex]MA = \frac{OF}{IF}[/tex]

We are given that:

OF = 60 N

IF = 15 N

Hence, the Mechanical Advantage of the lever is:

[tex]MA = \frac{60}{15} \\\\\\MA = 4[/tex]

It is a ratio so it has no unit.

Answer:

Explanation:

Given that, .

Input effort is 15N

Fi = 15N

Output effort is 60N

Fo = 60N

Then,

Mechanical advantage(M•A) is the ratio of two forces, and it is also referred to has force ratio.

M•A = Output Force / Input Force

M•A = Fo / Fi

M•A = 60 / 15

M•A = 4

The mechanical advantage is 4

Answer:

t = 0.325343 sec

Explanation:

given

mass of block(m) = 500 g

force constant  (k) = 25.0 N/m

we know simple harmonic motion equation as

y = A sin (ωt + Φ)

 where  Φ = [tex]sin^{-1} (-4/6)[/tex]

so we get

Φ = - 0.729727656 rad  

and we know

[tex]\omega = \sqrt{\frac{k}{m}[/tex]

[tex]y = A sin (t\sqrt\frac{k}{m} - 0.729727656)[/tex]

now substitute the values we get as

y = 0.06 m

[tex]0.06 = 0.06 sin (t\sqrt(\frac{25}{0.5}) - 0.729727656)[/tex]

[tex](t\frac{25}{0.5} - 0.729727656) = \frac{\pi}{2}[/tex]

on solving these equation we get

t = 0.325343 sec

The time where  t1 will it first reach the limit of its motion to the right is 0.325343 sec.

Since

mass of block(m) = 500 g

force constant  (k) = 25.0 N/m

Here we apply the harmonic motion equation i.e.

y = A sin (ωt + Φ)

where  Φ = sin^-(-4/6)

Φ = - 0.729727656 rad  

Now

w = √k/m

y = Asin (t√k/m - 0.729727656)

y = 0.06m

Now

(t2.5/0.5 - 0.729727656) = π/2

t = 0.325343 sec

Hence, The time where  t1 will it first reach the limit of its motion to the right is 0.325343 sec.

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Answer:

waist circumference

Explanation:

Answer:

Stars are forming in the spiral arms so there are high mass, hot, blue stars in the arms.

Explanation:

Answer:

the image is behind the mirror, so the image is virtual and upright.

Explanation:

The box will be pushed by Person A and so the box will move with magnitude of 10 N force and in left direction.

Explanation:

So in the present problem, three forces are acting on the box. The force exerted by Person A on the box is represented as F₁ and it is given as 10000 N. Similarly, the net force exerted by Person B and friction on the box is given as 9990 N and it is represented as F₂. Since, F₁ is acting toward left side and F₂ is acting toward right side, both the force will be acting opposite to each other. Then the net force of all the three force acting on it will be the difference between F₁ and F₂ and the box will move towards the direction of maximum force.

[tex]Net force = 10000-9990 = 10 N[/tex]

Thus, the magnitude of the net force acting on the box will be 10 N and as the force exerted by Person A on the box is greater than the combined force of Person B and friction, the box will move towards left side as exerted by Person A.

So the box will be pushed by Person A and so the box will move with magnitude of 10 N force and in left direction.

During the formation of the solar system, the solar nebula contracts, spins faster due to conservation of angular momentum and flattens out into the ecliptic plane. This process doesn't result in a black hole formation or loss of angular momentum.

In the formation of the solar system, the solar nebula contracts and, due to the conservation of angular momentum, it starts to spin faster. As it continues to contract, it begins to flatten out into what we call the ecliptic plane, an imaginary plane that passes through all the planets orbits.

This movement and transformation do not lead to the formation of a black hole or necessarily result in the loss of angular momentum. Rather, the nebula maintains its angular momentum, as per the law of conservation, and this aids in speeding up the rotation as the nebula gets smaller. This is very similar to what happens when a figure skater pulls their arms in while spinning, they go faster but their angular momentum remains constant.

These processes—gravity-induced contraction, increase in rotation speed, and flattening into the ecliptic plane—are integral steps in our understanding of how our solar system came into existence.

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During the formation of the solar system, the solar nebula contracts, flattens into the ecliptic plane and spins faster. This is due to the conservation of angular momentum. The material is concentrated in the center, forming a star, with the remaining materials eventually becoming planets and moons.

As the solar nebula contracts during the formation of the solar system, it flattens out into the ecliptic plane and spins faster due to conservation of angular momentum. This process starts when a large cloud of gas and dust, which originally had rotational energy, begins to contract under its own gravity. The natural motion and turbulence of the material lead to an initial spinning motion.

As the nebula shrinks, the rotation causes it to flatten into a disk-like shape. This can be compared to a figure skater spinning more rapidly by bringing her arms in closer to her body, which minimizes her rotational radius and conserves angular momentum. Similarly, as the nebula contracts and its rotational radius decreases, it spins faster.

A majority of the matter becomes concentrated in the hot center, eventually leading to the formation of a star. The remainder of the material, consisting of solid particles which condense as the nebula cools, forms the planetesimals - the building blocks of the planets and moons.

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Answer:

Student A is correct

Explanation:

This is because by student A's recording, we get the average speed = total distance/total time = 6 m/2 s = 3 m/s. Student B recorded an average speed of 1.5 m/s². This cannot be correct because it is in the unit of acceleration.

Student A is correct; the average speed of the ball is 3 m/s. Student B's 1.5 m/s² refers to acceleration, not speed.

The average speed of an object is calculated by dividing the total distance traveled by the total time taken.

In this case, the ball rolls 6 meters in 2 seconds.

Average Speed Calculation

Student A is correct. The average speed of the ball is 3 m/s. Student B's statement about 1.5 m/s² is incorrect because it refers to acceleration, not speed.

Answer:

There are equal parts reactants and products.

Explanation:

When a system is in a chemical equilibrium, the rate at which the forward reaction occur is the same as the rate at which the reverse reaction occurs. This system is said to undergo a reversible reaction. The concentration of the reactants and products do not change, i.e are constant.

In a chemical equilibrium, the reaction continues in both directions but at the same rate.

Therefore the statement that is a misconception about a system in chemical equilibrium is 'There are equal parts reactants and products'.

Answer:

C

Explanation:

i just took the quiz and went over my answers its C

Answer:

See explaination for the details of the answer.

Explanation:

Density is a measurement that compares the amount of matter an object has to its volume. An object with much matter in a certain volume has high density An object with little matter in the same amount of volume has a low density. Density is found by dividing the mass of an object by its volume.

The Calculate of the chordwise distribution of the skin friction coefficient and the displacement thickness is done and represented in the attachment.

Please kindly check attachment for the step by step answer.

Answer:

the force required to accelerate a 1,100kg car is 550N

Answer:

C. 441 N

Explanation:

Gravitational force between two objects can by calculated by the formula

= G m₁m₂ / r² , m₁ and m₂ are masses at distance r

= ( 6.67 x 10⁻¹¹ x 45 x 5.98 x 10²⁴) / ( 6.38 x 10⁶ )²

= 44.09 x 10

= 440.9 N

= 441 N .  

Answer:

south

Explanation:

Neither technician A nor B. No technician is correct.

Two spark plugs are connected to the ends of one coil in a waste spark ignition system (for a two-cylinder engine) ( for 4 cylinder engine two coils are used, each driving two spark plugs ).

As a result, both spark plugs will light up simultaneously. The first (A) cylinder's compression stroke will ignite one spark plug, while the opposing cylinder's exhaust stroke will fire the second ( wasted ). Cylinder "A" will fire during the exhaust stroke when it is time for cylinder "B" to fire during compression.

Due of the opposing current flow, both spark plugs burn simultaneously from the ends of just one coil. The spark "flows" in this manner from the center to the exterior.

Therefore, Neither technician A nor B. No technician is correct.

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Final answer:

Both Technician A and Technician B are correct; the waste spark ignition system fires two spark plugs at the same time and uses ignition coils connected to companion cylinders. So the correct option is c.

Explanation:

The subject of this question is the waste spark ignition system which is used in internal combustion engines. When evaluating the statements made by Technician A and Technician B, we find that Technician A says that a waste spark ignition system fires two spark plugs at the same time. This is correct as in a waste spark system, each ignition coil fires two plugs simultaneously - one on the compression stroke and the other on the exhaust stroke (which is the 'waste' spark). Technician B says that the system uses ignition coils connected to companion cylinders. This is also correct, as the coils are connected to two cylinders that are at the top dead center at the same time, one on the power stroke, and the other on the exhaust stroke.

Therefore, the answer is:

c. Both technicians A and B