What animals can fall from the sky when it is raining

Answers

Answer 1

Answer:

Answer: Cats and Dogs

Explanation:

That’s actually the silly term. The real answer depends how harsh it’s raining. Mostly it’s just bugs but sometimes a bird might lose control but it is very rare.

Related Questions

The velocity of a wave isa. its direction and speed. b. the distance between two wave crests. c. the time required for a wave to move one wavelength. d. half the vertical distance between a crest and a trough divided by the frequency.
Which energy resource is renewable? A) Fuel oilB) Natural gasC) WindD) coal
Weight and mass are interchangeable terms. True or False
The ____ law of thermodynamics states that a quantity of energy can't be completely transferred from one form into another
List several examples that show how electrical energy and light energy are useful to you

Of the waves listed, the one with the longest wavelength is a(n)a. X ray.
b. radio wave.
c. microwave.
d. visible light wave.

Answers

Of the waves listed, the one with the longest wavelength is the radio wave. The answer is letter B. They are the longest wave in the electromagnetic spectrum. It can either be a long wave or a short wave.

The first scientest that proposed that all things are made up of atoms

Answers

John Dalton I believe.

Suppose you built a scale-model atom in which the nucleus is the size of a tennis ball. About how far would the cloud of electrons extend?

Answers

Answer:

500 m

Explanation:

The size of a nucleus is about

$d=10^(-15) m$

Instead, the size of the electron cloud extends at the order of

$D=10^(-10)m$

This means that the ratio between the size of the electron cloud and the size of the nucleus is about

$k=(D)/(d)=10,000$

So, the electron cloud is about 10,000 bigger than the nucleus of the atom.

Here we want to build a scale-model atom, in which the nucleus is the size of a tennis ball, so a size of approximately

$d=5 cm$

Therefore, since the proportions must be respected, the electron clouds must be 10,000 bigger, so its size in this model would be:

$D=kd=(10,000)(5)=50,000 cm = 500 m$

So, the size of the electron cloud would be 500 m.

Final answer:

The cloud of electrons in a scale-model atom would extend about 100 meters.

Explanation:

The nucleus is a central, positively charged region within an atom. It contains protons, which have a positive electric charge, and neutrons, which are electrically neutral. Nuclei make up the majority of an atom's mass and are held together by the strong nuclear force, while electrons orbit the nucleus in electron shells.

In a scale-model atom where the nucleus is the size of a tennis ball, the cloud of electrons would extend about 100 meters. This can be calculated by comparing the size of the nucleus to the actual size of an atom. The diameter of a tennis ball is approximately 6.7 cm, while the diameter of an atom is on the order of 0.1 nm. By scaling up, we find that the electron cloud would extend around 100 meters.

Learn more about Scale-model atom here:

brainly.com/question/33541403

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What are the 3 types of mediums that sound can travel through

Answers

solid,liquid, gas is the answer hope it helps enjoyyyyy
!!!!!!!!!!!!!!!

Suppose nuclear physicists discovered a fission process that always produced two smaller nuclei and only one neutron. Would this eliminate the danger of meltdown in a nuclear power plant? Why or Why not- ? Explain.(Thanks to anyone who helps :)

Answers

Running that process in a power plant would not only eliminate the
danger of a core meltdown, it would also pretty much eliminate the
possibility of getting any nuclear power out of the plant.

The understanding behind your question is correct . . . Neutrons coming
out of one fission go on to get absorbed in other nuclei, and cause the
other ones to fiss. BUT . . . NOT every free neutron whizzing around in
the core material gets absorbed. Some of them enter another nucleus
and immediately get spit out. And some of them never get near another
nucleus at all. Of all the neutrons produced in one fission, only some
percentage go on to stimulate another one. So if each fission produced
only one neutron, then the whole process would completely run out of gas
in some amount if time, as the number of free neutrons dwindled and shrank.

a piano of mass 852 kg is lifted to height of 3.5m how much gravitational potential energy is added to the piano acceleration due to the gravity is g=9.8 m/s2

Answers

Gravitational potential energy added =

   (mass) x (gravity) x (distance lifted)

   = (852 kg) x (9.8 m/s²) x (3.5 m)

   = (852 x 9.8 x 3.5) kg-m²/s²

   = 29,223.6 joules

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A rain gutter is to be constructed from a metal sheet of width 30 cm by bending up one-third of the sheet on each side through an angle θ . How should θ be chosen so that the gutter will carry the maximum amount of water?