What is the dry adiabatic rate?

Answer: 202.1 m/s

Explanation:

Given that,

acceleration of rocket (A) = 2.15 m/s2 velocity (V) = ?

Time taken (T) = 94.0 seconds

Since acceleration is the rate of change of velocity per unit time

i.e Acc = velocity / time

Velocity = Acceleration x time

V = (2.15 m/s2 x 94.0 seconds)

V = 202.1 m/s

Thus, the velocity is 202.1 m/s

Explanation:

P = IV

n (75 W) = (15 A) (120 V)

n = 24

There could be 24 , 75-W lightbulbs connected to 120 V that can be used without blowing a 15-A fuse.

The rate of doing work is known as power. The Si unit of power is the watt.

Power consumed by the bulb  =work done /time

The mathematical expression for the electric power is as follows,

P = VI  

As given in the problems we have to find out how many 75-W lightbulbs, connected to 120 V can be used without blowing a 15-A fuse,

The total power that would blow the fuse = 120 × 15

                                                                     =1800 watts

Given that a single lightbulb consumes 75 watts,

The number of bulbs = 1800 watts / 75 watts

                                 = 24 lightbulbs

Thus, there would be 24 lightbulbs.

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Answer:

Pedalfer soils

Explanation:

6.18b: Pedalfer soils occur in temperate climates experiencing moderate to high rainfall.

The type of soil that occurs in temperate climates where rainfall is moderate to high is pedalfer soil.

A temperate climate is a moderate climate that is characterized by relatively mild temperatures and distinct seasonal changes.

Here,

Pedalfer soils are also known as "brown earth" and are characterized by a high content of iron and aluminum oxides. They are formed in regions with a humid climate, where rainfall leaches away nutrients and minerals from the topsoil and causes the accumulation of iron and aluminum oxides in the subsoil. Pedalfer soils are generally fertile and are commonly used for agricultural purposes due to their ability to support plant growth.

In contrast, pedocal soils are found in arid or semi-arid regions, laterite soils are found in tropical regions with high rainfall, and humus is a type of organic matter that can be found in various soil types.

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Answer:

Height, Hair color and Eye color is mostly influenced by genes. Weight on other hand can be influence by gene a little but its mostly on environment such as diet control and other things.

Explanation:

Answer and explanation:

Let [tex]v_1[/tex] be the velocity of a body projected vertically up, 1 second before it reaches its maximum height. We know, from the kinematics equations, that the distance traveled [tex]y[/tex] in an interval of time [tex]t[/tex] is equal to:

[tex]y=v_0t-\frac{1}{2}gt^{2}[/tex]

Then, in the last second, the distance traveled [tex]y_1[/tex] is equal to:

[tex]y_1=v_1t-\frac{1}{2}gt^{2}[/tex]

But the velocity [tex]v_1[/tex] is related to the time by the equation:

[tex]t=\frac{v_1}{g}\\\\v_1=gt[/tex]

And substituting this expression in the equation above, we obtain:

[tex]y_1=gt^{2}-\frac{1}{2}gt^{2}\\\\y_1=\frac{1}{2}gt^{2}\\\\y_1=\frac{1}{2}(9.8m/s^{2})(1s)^{2}\\ \\y_1=4.9m[/tex]

It means that the distance traveled by the body in the last second of its motion is a constant, independent of its initial velocity.

Answer:

0.81 Watts

Explanation:

P = IV

P = (0.27 A) (3.0 V)

P = 0.81 W

Answer:

convection

Explanation:

hot air rising is a common example of heat convection

Answer: Radiation

Explanation:

Radiation is like for example the sun gives out the radiation from it's heat and for the example you have the heat from the stove is warming the house up from it's radiation waves.

Answer:

Refraction?

Explanation:

The inner planets are;- Mercury, Venus, Earth and Mars.  Earth is the only planet which has atmosphere, water on the surface or know of  to have water(Mars might have water underground), and life.  

Mercury is pretty much a small planet on fire by day, but freezes at night.

Venus is a gas planet which is usually on fire in places too, but has mass ice craters on the surface.

Earth, well just look out your window.

Mars may have been an earth like planet at one stage, (still unknown) but is known as the red planet due to its volcanic activity.  Mars also has the biggest mountain/volcano on any known planet called Mt Olympus.  It's 3 times the size of Mt Everest.

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Answer:

c . diverging mirror

Explanation:

also known as convex mirror which causes the incident rays of light to spread after reflaction.

Answer:

4.34 mi at [tex]36.3^{\circ}[/tex] north of east

Explanation:

The displacement of an object in motion is a vector connecting its initial position to the final position of motion.

In this problem, the man has 2 different motions:

- 3.50 mi due east

- 2.57 mi due north

We can take the east direction as positive x-direction and north as positive y-direction, so these two motions can be written as:

[tex]x=+3.50 mi[/tex]

[tex]y=+2.57 mi[/tex]

Since the two motions are perpendicular to each other, the resultant displacement can be found by using Pythagorean's theorem; therefore:

[tex]d=\sqrt{x^2+y^2}=\sqrt{3.50^2+2.57^2}=4.34 mi[/tex]

We can also find the direction using the equation:

[tex]tan \theta = \frac{y}{x}[/tex]

And therefore,

[tex]\theta=tan^{-1}(\frac{y}{x})=tan^{-1}(\frac{2.57}{3.50})=36.3^{\circ}[/tex]

Answer: false

Explanation: friction makes objects slow down and stop

The butterfly in question is most likely a Papilio glaucus. This determination is made based on the features described in the provided dichotomous key, mainly the color of the wings. In a real situation, other factors such as geography could also play a role in identification.

The question presents a dichotomous key that is used to identify species, in this case, butterfly species based on wing shape and pattern. This is a common biological identification method. The butterfly in question is identified as Papilio glaucus.

This determination is based on the key provided: if the butterfly's hindwings are pointed or rounded (no specific shape was mentioned in the question), then we check the primary color. The Papilio glaucus is primarily yellow, therefore, if the butterfly has primarily yellow wings it is most likely this species.

Please note, that real-world species identification can be more complex and involve factors such as geographical location, time of year, and more.

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The kinetic energy for the above data is 1.0000 J.

The kinetic energy (KE) is calculated using the formula KE = 1/2 * m * v^2, resulting in a kinetic energy of 1.0 Joule for a 2.0 kg guinea pig moving at a speed of 1.0 m/s.

The kinetic energy (KE) of an object in motion is determined by the formula: KE = 1/2 * m * v^2, where m is the mass and v is the velocity. For the guinea pig in question, with a mass (m) of 2.0 kg and a velocity (v) of 1.0 m/s, the calculation is as follows:

KE = 1/2 * 2.0 kg * (1.0 m/s)^2

KE = 1/2 * 2.0 kg * 1.0 m^2/s^2

KE = 1.0 kg * 1.0 m^2/s^2

KE = 1.0 Joule

Therefore, the kinetic energy of the 2.0 kg guinea pig running at a speed of 1.0 m/s is 1.0 Joule.

Answer:

consumes the hot

Explanation:

Black consume heat and white reflects the heat and doenst get that hot

After the waxing gibbous, the lunar phase is the full moon so the answer is A.

Answer:

A

Explanation:

Full moon is the phase after a waxing gibbous

Answer:

Potential

Explanation:

This is because it has not yet fallen, and it has the potential to fall and turn into kinetic energy. When it starts falling, it will be kinetic.

Answer:

Potential because it is in place.

Explanation:

Kinetic energy is when something is in motion. Potential is sitting still.

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Answer:

Solids are easily recognized by their ability to retain a fixed shape and definite volume. Particles making

up a solid are held together in a rigid form. They are not free to move about or slide past one another and

the solid does not have the ability to flow. (Although the particles of a solid do not move position to position, they do have motion in that they are constantly vibrating.

To change the temperature of a solid, heat energy must be added. The amount of heat energy that changes

the temperature of 1.0 g of a solid by 1.0°C is called its specific heat (c). Each substance has its own

specific heat. The specific heat of ice is 2.1 Joules/g°C. In other words we must supply 1.0 gram of ice

with 2.1 Joules of heat energy to raise its temperature by 1.0 °C.

The general equation for calculating heat energy to change the temperature of a solid is:

Heat = Mass x Specific Heat (solid) x Temperature Change

Q = m c DT

10 g 10 g 10 g 10 g 10 g 10 g

Calculate the heat necessary to change 10 g of ice(s) at -20 °C to 10 g of ice(s) at 0°C. (A-B)

Q = mc∆T = (10 g) (2.1 J/g°C) (20°C) = 420 J

If you continue to add heat energy once the temperature of the ice reaches 0°C , the heat absorbed is called

the heat of fusion (Lf). This heat is used to cause a change of phase (from a solid to a liquid). This heat is

increasing the potential energy of the molecules of the solid. No temperature change takes place. Each

substance has its own heat of fusion. The heat of fusion for ice is 340 Joules/g. Exactly the same amount

of heat is given up when 1.0 g of water is changed to ice. This heat is called the heat of crystallization.

The general equation for calculating heat energy to change a solid to a liquid is:

Heat = Mass x Heat of Fusion

Q = m Lf

Calculate the heat necessary to change 10 g of ice(s) at 0°C to 10 g of water(l) at 0°C.(B-C)

Explanation:

Q = mLf = (10 g)( 340 J/g) = 3400 J

Answer:

Correct Answer: 200° C

Explanation:

Have a great day!

Answer:

compass needle normally points toward Earth's magnetic pole, which is near the North Pole. Which best explains why the

eedle moves away from the pole when it comes close to a current-carrying wire?

Current within the wire weakens the magnetic force of the pole.

Magnetism surrounding the wire weakens the magnetic force of the nole

Explanation:

Answer:

(D)

Explanation:

A compass needle normally points toward Earth’s magnetic pole, which is near the North Pole. Which best explains why the needle moves away from the pole when it comes close to a current-carrying wire?

Current within the wire weakens the magnetic force of the pole.

Magnetism surrounding the wire weakens the magnetic force of the pole.

Current within the wire draws the needle toward the wire.

Magnetism surrounding the wire draws the needle toward the wire.

Answer:

3N

Explanation:

Workdone = F x d

F = force

d = distance 8m

Workdone = 24J

24 = F x 8

Divide both sides by 8

24/8 = F x 8/8

3 = F

F = 3N

Answer:

The Hertzsprung-Russel Diagram also known as HR diagram is stars' scatter plot showing the relation of luminosity or absolute magnitude vs spectral class or surface temperature. The main sequence stars can be plotted on a HR Diagram as a diagonal band as their physical properties vary a lot.

The mass of these stars ranges from about a tenth of that of the Sun to about 200 times the mass of the Sun. Inside these stars Hydrogen fusion results in Helium. 90% of the stars, including the Sun, in the Universe lies in this category.

Their surface temperature lies in the range of 2500 Kelvin to 40000 Kelvin.

And Giant Stars:

A giant star is a star with a radius much larger than that of our Sun (even hundreds of times bigger). They can be either blue giants or red giants: in the first case, the surface temperature is very high, higher than that of the Sun, while in the second case the surface temperature can be lower than that of the Sun. The same applies to the mass: blue giants are very massive stars, burning quickly their nuclear fuel, while red giants can have small masses (a little bit bigger than that of our Sun).

We can find giant stars in the upper part of the HR diagram, blue giants will be on the upper left corner since they have high luminosity and high temperature, while red giants will be on the upper right corner, having high luminosity but low temperature.  

Explanation:

Answer:

False

Explanation:

Boiling water is not a chemical change it is a Physical change

Answer:

false

Explanation:

Answer:

See details below

Explanation:

1) The amount of matter in something -  is a mass - does not change when gravity changes - it is measured in kilograms.

2) a gravitational force - is a force (normally called weight) - changes when gravity changes - it is measured in newtons.

-- measured in newtons  . . . . . Weight

-- measured in kilograms  . . . . . Mass

-- does not change when gravity changes  . . . . . Mass

-- changes when gravity  changes  . . . . . Weight

-- the amount of matter  in something   . . . . . Mass

-- a gravitational force . . . . . Weight

Weight = (mass) x (gravity)

Weight = (7.0 kg) x (gravity)

On Earth, where (gravity) is roughly 10 N/kg . . .

Weight = (7.0 kg) x (roughly 10 N/kg)

Weight = roughly 70 Newtons

That's B on Earth.

It would be some other number on other bodies.

Final answer:

A 7.0-kilogram bowling ball on Earth would weigh approximately 70 newtons, as weight is calculated by multiplying mass by Earth's gravity (9.8 m/s²).

Explanation:

The weight of an object on Earth can be calculated using the formula Weight (N) = Mass (kg) × Gravity (m/s²). Since the standard acceleration due to gravity on Earth is approximately 9.8 m/s², a 7.0-kilogram bowling ball would have a weight of 7.0 kg × 9.8 m/s² = 68.6 N, which we round to 70 newtons (option B).

This conversion is crucial for solving problems that involve force and mass, such as questions on kinetic energy, momentum, and collision outcomes as typically covered in physics classes.

Answer:

  3.92 N (straight down)

  2.36 N (down, parallel to the plane)

Explanation:

The only force acting on the system is apparently that due to gravity. The mass of the system is the sum of the masses of the blocks, so is ...

  0.20 kg + 0.20 kg = 0.40 kg

The force due to gravity is given by ...

  F = ma = (0.40 kg)(9.8 m/s²) = 3.92 N . . . (straight down)

That force is acting straight down, so is at an angle with respect to the direction the blocks are constrained to move.

The force down the plane is (3.92 N)·sin(37°) ≈ 2.359 N . . . (down the plane)

_____

Comment on the answer

We have given two answers to the question, because in this frictionless system, the force acting normal to the plane of motion is irrelevant to the system dynamics. The question asked for the net force on the system, which is the force due to gravity, so we have given that magnitude also.

The parallel force on the block system is 2.36 N

The perpendicular force on the bock system is 3.13 N.

The given parameters;

The magnitude of the net force exerted on the block system is calculated as follows;

The parallel force on the block system is calculated as;

[tex]F_{||} = mg \times sin(\theta)\\\\F_{||} = (0.2 + 0.2)\times 9.8 \times sin(37)\\\\F_{||} = 2.36 \ N[/tex]

The perpendicular force on the bock system;

F⊥ = mg x cos(Ф)

F⊥ = (0.2 + 0.2) x 9.8 x cos(37)

F⊥ = 3.13 N

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Answer:

4. Momentum = mass x velocity

= 920kg x 25m/s = 23000kgms¯¹

5.Dolphin. Momentum of dolphin is 1000kgms¯¹ whereas the momentum of manatee is 700kgms¯¹

These can be found using the formula above.

Answer:

52 m/s

Explanation:

Wavelength is the distance between two successive crests. Two crests make one circle hence 16 cycles are equal to 16 wavelengths. Each wavelength is equal to 208/16=13 m long

Speed of wave is given as the product of wavelength and frequency, expressed as

S=fw

Where f is the frequency and w is the wavelength

Substituting 13 m for w and 4 Hz for f then

S=4*13=52 m/s

Therefore, the speed is equivalent to 52 m/s