The process of converting a solid into gaseous state is called

Answer: Sign of body 'a' is + and body 'b' & 'c' is -

Hope this answer is right!

Explanation:

The same charge repels each other and the opposite charge attracts each other. The force between the same charge is called repulsive charge and that of opposite charge is called attractive charge. The bodies A and B repel each other, so the charge of the body A and body B is of the same nature.

Answer:

Explanation:

In a velocity/time (aka acceleration) graph, the slope of a line indicates the value of the acceleration in m/s/s. Acceleration is the change in velocity over the change in time. From 0 - 2 seconds, there is no change in velocity, so the acceleration during this interval is 0 (which is the same as the slope of the line). From 2 - 4 seconds, the slope of the line is -2, so the acceleration during the time interval from 2 to 4 seconds is -2 (negative because David is slowing down but is still going the same direction: to the right).

Answer:

"Man's mind is far too advanced for his survival needs."

See also "Wallace", Darwin's junior partner who couldn't explain the gap in intelligence.

Answer:

34

Explanation:

Answer:

H = 1/2 * g * t^2     since initial velocity is zero

v = g * t    where v is the final velocity

t = v / g

H = 1/2 g * v^2 / g^2 = 1/2 v^2 / g

v = (2 * H * g)^1.2

v = (2 * 500 * 9.8)^1/2 = 99 m/s

Check: t = v / g = 99 / 9.8 = 10.1 sec

H = 1/2 * 9.8 * 10.1^2 = 500 m

Answer:

Explanation:

The only one NOT true is D. The label for acceleration is meters/sec/sec or

[tex]\frac{m}{s^2}[/tex]

The question is: The weight (w) of a person on Earth is 550N. Determine the mass (m) of the person and the weight (w) of the person on the Moon.

Answer: The mass (m) of the person is 550 N and the weight (w) of the person on the Moon is 891 kg.

Explanation:

Given: Mass = 550 N

When a person moves towards moon then its mass will remain the same but there will occur change in its weight because the acceleration due to gravity on moon is different than that on Earth.

Therefore, formula used to calculate the weight of person on moon is as follows.

[tex]W = m \times g_{m}[/tex]

where,

m = mass

[tex]g_{m}[/tex] = acceleration due to gravity on moon = 1.62 [tex]m/s^{2}[/tex]

Substitute the values into above formula as follows.

[tex]W = m \times g_{m}\\= 550 N \times 1.62 m/s^{2}\\ (1 N = 1 kg \times m/s^{2})\\= 891 kg[/tex]

Thus, we can conclude that the mass (m) of the person is 550 N and the weight (w) of the person on the Moon is 891 kg.

Answer:

oxygen is used up is the answer

Explanation:

These vaporized molecules are drawn up into the flame, where they react with oxygen from the air to create heat, light, water vapor (H2O) and carbon dioxide (CO2).

Answer:

[tex]h_{moon} = 11.8\ m[/tex]

Explanation:

Since the work done is same everywhere in the universe. Hence, the work done in jumping will be same for the person on moon and earth:

[tex]W_{moon} = W_{earth}\\\\P.E_{moon} = P.E_{earth}\\\\mg_{moon}h_{moon} = mg_{earth}h_{earth}\\\\g_{moon}h_{moon} = g_{earth}h_{earth}\\\\(1.66\ m/s^2)h_{moon} = (9.8\ m/s^2)(2\ m)\\\\h_{moon} = \frac{(9.8\ m/s^2)(2\ m)}{1.66\ m/s^2}\\\\h_{moon} = 11.8\ m[/tex]

Answer:

c

Explanation:

c

Answer: 4

Explanation:

Answer:

4

Explanation:

Answer:

If the collector of the cell is covered, the voltage is higher

Explanation:

The collector of the a passive, active, or photovoltaic (PV) solar cell is the device that takes the Sun's energy by the absorption of the Sun's radiation which is then transformed into electricity and heat. The ability to absorb the Sun's energy is given by the material type and the coating of solar collector

Therefore, the device requires access to energy from Sunlight to get the energy which can be stored in a rechargeable cell and well the collector's cell is covered, access to Sunlight is denied and therefore energy is not supplied to the cells and current is not generated and there is no flow of electricity and the voltage in the circuit is lower or there is no voltage in the circuit

The statement which is wrong about the solar cell is therefore, that if the collector of the cell is covered, the voltage is higher

Answer:

Push-ups

explanation:

Answer:

the anser for your qestion is

c. push- ups

Answer:

Newton's First Law of motion states that an object will continue to move in a straight line or remain at rest unless  a force acts on it

The stone is able to move in circular motion because a (centripetal) force acts through the string on it, which maintains the circular motion, by turning the stone to the circular path as the stone moves with momentary velocity along a straight line which is (therefore) tangential to the circle

Therefore, at the point the spring breaks, the centripetal force is no longer acting on the stone to change its path and the motion of the continues on the tangent to the initial circular motion path at that point

Explanation:

Answer:

Dance studio

Explanation:

Martial art use to defend ourself from any dangerous. Dance is a way to learn it

Answer:

The answer is A.) Dance studio.

Explanation:

See screenshot below

Hope this helps! :D  

(Can you mark me brainliest?)

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Answer:

8.89 secs

Explanation:

720m = 1 sec

6400m = ?

6400/720 = 8.89 secs

Explanation:

everything can be found in the picture

Answer:

Efficiency = 0.575 = 57.5%

Explanation:

First, we will calculate the output energy of the elevator, which is equal to the potential energy acquired by the load.

[tex]O = Potential\ Energy\\O = mgh[/tex]

where,

O = Output = ?

mg = W = Weight = 12500 N

h = height = 29 m

Therefore,

[tex]O = (12500\ N)(29\ m) \\O = 362500\ J = 362.5\ KJ[/tex]

The input is given as:

I = 630 KJ

Thus the efficiency will be:

[tex]Efficiency = \frac{O}{I} = \frac{362.5\ KJ}{630\ KJ}\\\\[/tex]

Efficiency = 0.575 = 57.5%

Explanation:

the electric current is ratio of electric poer to the voltage

Answer:

D. Graph A

Explanation:

Ohm's law states that V = I*R

So rearrange the equation by dividing the Volts by the amps to give you resistance.

R = 12/4

R = 3 ohm

The line in graph of voltage versus current, which represents a 3.0 ohm

resistor is line A. The correct option is D.

The current is the stream of charges which flow inside the conductors when connected across the end of voltage.

Given,  the graph of voltage versus current is given.

From the graph, I = 4A and V= 12 V

From the Ohm's law, V =IR

Resistance, R = V/I

By substituting the values, we get

R = 12/4

R= 3 ohms

The resistance of the circuit, 3 ohm is represented by the line A on the graph.

Thus, the correct option is D.

Learn more about current.

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Given:

distance of observer from the sound source, [tex]s=70~m[/tex]

distance between the source of image information sender and the receiver, [tex]d=45~miles=72420.48~m[/tex]

Assumptions:

speed of sound, [tex]v=343~m/s[/tex]

speed of the image information being sent, [tex]c=3\times 10^8~m/s[/tex] (we assume it to be nearly the speed of light in vacuum)

Solution:

Time taken by the sound to reach the observer:

[tex]time=\frac{distance}{speed}[/tex]

[tex]time=70\div 343[/tex]

[tex]time \approx 0.2~s[/tex]

Time taken by the image to reach the destination:

[tex]time=\frac{72420.48}{3\times 10^8}[/tex]

[tex]time=2.4\times 10^{-4}~s[/tex]

The net displacement of the body is

∆x = (4, 3, 3) m - (-5, 3, 1) m = (9, 0, 2) m

so the work done by F = (3, 0, 4) N in the direction of ∆x is

F • ∆x = (3, 0, 4) • (9, 0, 2) N•m = (27 + 0 + 8) N•m = 35 J

The angle between the force and initial velocity v₀ is θ, such that

F • v₀ = ||F|| ||v₀|| cos(θ)

(3, 0, 4) • (6, 1, 1) N•m/s = √(3² + 0² + 4²) √(6² + 1² + 1²) cos(θ) N•m/s

==>   cos(θ) = (18 + 0 + 4) / (√25 × √38) = 22/(5√38)

==>   θ = arccos(22/(5√38)) ≈ 44.5°

Answer:

Las coordenadas del punto son [tex](x,y) = (6.582\,m, 3.8\,m)[/tex].

Explanation:

La relación entre un vector en formato polar y uno con formato rectangular con respecto al mismo origen queda sintetizado por la siguiente expresión:

[tex](x, y) = r\cdot (\cos \theta, \sin \theta)[/tex] (1)

Donde:

[tex]r[/tex] - Magnitud de la distancia del punto con respecto al origen, medido en metros.

[tex]\theta[/tex] - Dirección del punto con respecto del semieje +x, medido en grados sexagesimales.

[tex]x,y[/tex] - Coordenadas rectangulares del punto con respecto al origen, medidas en metros.

Si sabemos que [tex]r = 7.6\,m[/tex] y [tex]\theta = 30^{\circ}[/tex], entonces las coordenadas rectangulares del punto con respecto al origen son:

[tex](x,y) = (7.6\,m)\cdot (\cos 30^{\circ}, \sin 30^{\circ})[/tex]

[tex](x,y) = (6.582\,m, 3.8\,m)[/tex]

Las coordenadas del punto son [tex](x,y) = (6.582\,m, 3.8\,m)[/tex].

Answer:

fertilization and it produces a Zygote

Answer: [tex]3.5\ km[/tex]

Explanation:

Given

Car starts from the state of rest and acquires a velocity of [tex]70\ km/hr[/tex] in 6 minutes

Final velocity in m/s is [tex]v=70\approx 19.44\ m/s[/tex]

Using equation of motion

[tex]v=u+at\\\Rightarrow 19.44=0+a(6\times 60)\\\Rightarrow a=0.054\ m/s^2[/tex]

Distance covered in 360 s

[tex]\Rightarrow v^2-u^2=2as\\\Rightarrow 19.44^2-0=2\times 0.054\times s\\\Rightarrow s=3500.64\ m\approx 3.5\ km[/tex]

B

because in parallel combination there are more than one paths for the current to flow .

Answer:

I)  the correct one is A

II)  the alternatives C

III) corresponds to option D

IV)  alternative B

Explanation:

Various information can be obtained from the speed versus time graphs

* If the graph is an inclined line, the speed is constant

* if the graph is a horizontal line the velocity is zero

In this case, the first graph (I) has two parts: an inclined line that corresponds to a uniform movement with speed and a second one, so that it is a horizontal line that indicates that the body is stopped.

If we see the different alternatives, the correct one is A

The second graph (II) has a movement with constant speed second period of being stopped

This graph corresponds to the alternatives C

The third graph (III) the body moves at constant speed without stopping

This corresponds to option D

The fourth graph (IV) the body moves with a slow speed and after 40 s it stops

This graph is associated with alternative B