As a longitudinal wave travels through a medium, it displaces the particles . parallel to the direction which the wave travels.b. along the opposite plane of travel.
c. vertically along the direction that the wave travels.
d. perpendicular to the path of travel.

Answers

Answer 1

Answer:

As a longitudinal wave travels through a medium, it displaces the particles parallel to the direction which the wave travels.

What is longitudinal wave?

This type of waves are vibrations that takes place in the same direction i.e parallel to the wave motion. They are usually mechanical and examples include sound waves which requires a medium.

A longitudinal wave is a form of wave in which the displacement of the medium and the medium's vibration are both parallel to the direction of the wave.

A longitudinal wave moves the particles parallel to its direction of passage as it passes through a material.

To learn more about longitudinal wave refer to the link:

brainly.com/question/6663687

#SPJ5

Answer 2

Answer:

Answer:

A- Parallel to tge direction which the wave travels

Explanation:

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What is the KE of a bird, mass 40g flying at 23m/s?

Answers

Answer:

230

Explanation:

You do Ke = kinetic times distance divide by mass

A solid wood door (???? = 1 3 ????(width) 2 ) 1.00 m wide and 2.00 m high is hinged along one side and has a total mass of 44.0 kg. Initially open and at rest, the door is struck at its center by a handful of sticky mud with mass 0.700 kg , traveling perpendicular to the door at 14.0 m/s just before impact. Find the final angular speed of the door in (rad/s).

Answers

Answer:

$\omega =0.33\ rad/s$

Explanation:

given,

size of door = 1 m x 2 m

total mass = 44 Kg

mud mass attached = 0.700 Kg

speed of door = 14 m/s

angular speed of door = ?

conservation of angular momentum

initial angular momentum is equal to final momentum

$L_i = L_f$

$mvr = (I_(door)+I_(clay))* \omega$

$I_(door) = (1)/(3)MW^2$

$I_(door) = (1)/(3)* 44 * 1^2$

$I_(door) =14.67\ kg.m^2$

$I_(clay) = mr^2$

$I_(clay) = 0.7* 0.5^2$

$I_(clay) =0.175\ kg.m^2$

$0.7* 14* (1)/(2) = (14.67+0.175)* \omega$

$\omega =(4.9)/(14.845)$

$\omega =0.33\ rad/s$

State what causes tides on earth

Answers

The mutual gravitational forces of attraction between the Earth
and Sun, plus the mutual gravitational forces of attraction between
the Earth and Moon, cause the tides on Earth.

The distribution of total body protein in healthy adult men is approximately Normal, with mean 12.3 kg and standard deviation 0.1 kg. If you take a random sample of 25 healthy adult men, what is the probability that their average total body protein is between 12.25 and 12.35 kg?

Answers

Answer:

$P(12.25\leq x \leq 12.35 ) = 0.9876$

Explanation:

given,

mean (μ) = 12.3 Kg

standard deviation (σ ) = 0.1

random sample = 25

probability between 12.25 and 12.35 kg

$P(12.25\leq x \leq 12.35 ) = P((12.35-12.3)/((0.1)/(√(n)))\leq z)- P((12.25-12.3)/((0.1)/(√(n)))\leq z)$

$P(12.25\leq x \leq 12.35 ) = P((12.35-12.3)/((0.1)/(√(25)))\leq z)- P((12.25-12.3)/((0.1)/(√(25)))\leq z)$

$P(12.25\leq x \leq 12.35 ) = P((12.35-12.3)/((0.1)/(5))\leq z)- P((12.25-12.3)/((0.1)/(5))\leq z)$

$P(12.25\leq x \leq 12.35 ) = P((5 (12.35-12.3))/(0.1)\leq z)- P((5(12.25-12.3))/(0.1)\leq z)$

$P(12.25\leq x \leq 12.35 ) = P(\frac{2.5\leq z)- P(-2.5\leq z)$

using z-table

$P(12.25\leq x \leq 12.35 ) = 0.9938 - 0.0062$

$P(12.25\leq x \leq 12.35 ) = 0.9876$

List the characteristics properties of all waves. at what speed do electromagnetic waves travel in a vacuum

Answers

Electromagnetic waves travel at $300,000,000 metres per second$ in vacuum

The fundamental properties that can be attributed to waves are;

reflection
refraction
diffraction
interference.

Other properties are ;

wavelength
frequency
amplitude.

A waves can be regarded as one that disturb the transfers energy.

what all this electromagnetic waves has in common is their ability of them to travel in the vacuum with the same speed.

Their speed in the vacuum is 300,000,000 metres per second which is the speed of light.

Electromagnetic radiation can be regarded as radiation that has waves of the electromagnetic field, which propagate through the space, and it moves along with electromagnetic radiant energy.

Electromagnetic waves that are part of electromagnetic spectrum are:

radio waves
microwaves
infrared light
ultraviolet
X-rays,
gamma rays.

Wavelength can be regarded as distance that exist between identical points i.e the adjacent crests of the adjacent cycles in that waveform

Frequency can be explained as the rate of vibration of the wave electromagnetic field per seconds.

The amplitude of wave can be regarded as distance from the centre line to the bottom of a trough, or to the top of a crest.

Therefore, electromagnetic waves travel at 300,000,000 metres per second in vacuum.

brainly.com/question/3101711?referrer=searchResults

All electromagnetic waves travel at

299,792,458 meters per second

in vacuum.

Which electric component provides energy to the circuit of a flashlight?battery

motor

resistor

switch

Answers

A battery provides energy to a circuit or flashlight.

Here, Battery provides energy to the circuit of a flashlight, Energy stored in the chemical form inside it!!

In short, option A would be your correct answer.

Hope this helps!

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As a longitudinal wave travels through a medium, it displaces the particles . parallel to the direction which the wave travels.b. along the opposite plane of travel.c. vertically along the direction that the wave travels.d. perpendicular to the path of travel.

Answers

What is longitudinal wave?

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As a longitudinal wave travels through a medium, it displaces the particles . parallel to the direction which the wave travels.b. along the opposite plane of travel.
c. vertically along the direction that the wave travels.
d. perpendicular to the path of travel.