Resonance always causes the object resonating to fall apart or be destroyed. true or false

Answers

Answer 1

Answer: The statement about "Resonance always causes the object resonating to fall apart or be destroyed" is false. Resonance always causes the object near it to vibrate more.

Answer 2

Answer:

Answer:

False

Explanation:

Related Questions

An object with mass 60 kg moved in outer space. When it was at location < 13, -19, -3 > its speed was 3.5 m/s. A single constant force < 220, 320, -120 > N acted on the object while the object moved from location < 13, -19, -3 > m to location < 18, -11, -8 > m. Then a different single constant force < 150, 230, 220 > N acted on the object while the object moved from location < 18, -11, -8 > m to location < 22, -17, -3 > m. What is the speed of the object at this final location?final speed = m/s
A mass movement that involves the sudden movement of a block of material is called aA. rockfall. B. slide. C. slump. D. flow.
A rectangle has a length of 5.50 m and a width of 12.0 m. What are the perimeter and area of this rectangle?
In a series circuit, as more batteries are added what effect does it have on the bulbs in a circuit . Will the bulbs get brighter or stay the same?
how much energy is transferred when 1 gm of boiling water at 100 degree celcius condenses to water at 100 degree celcius?

What is a vortex? need some help

Answers

Huge mass of whirling air (something like a tornado)

Which statement bet explains the relationship between the electric force between two charged objects and the distance between them

Answers

Coulomb's Law: Force = k x q1x q2 divided distance square
where k=9x10^9 , q1 and q2 are the charge
So if you distance is halved, your force is stronger by 4 times
and if you distance is doubled, your force is 1/4
Ask me again if you aren't clear :)

A silver bar 0.125 meter long is subjected to a temperature change from 200°C to 100°C. What will be the length of the bar after the temperature change? A. 0.0000189 meterB. 0.00002363 meterC. 0.124764 meterD. 0.00023635 meter

Answers

The answer is C C. 0.124764 meters. When a metal (or almost any item save water) is cooled, it shrinks, as the atoms that make it up vibrate less and less and causes the item to contract. The reverse happens when heating, as the atom vibrate faster causing it to expand. Now, even though it would shrink, the shrinkage would not be that noticeable to the naked eye, and thus, the other lengths are just FAR too short to occur.

Explanation:

ΔL =18.8 ×10 − 6 . 0.125 (100−200) =

2.35 ×10^4 m=

−0.235mm

So the bar should shrink

0.235mm

giving a new length of (changing in mm):

125−0.235= 124.7mm

Opposite electric charges will repel, and like charges will attract.

Answers

As it stands now, that statement is false.

There are two ways to make the statement true:

#1). Exchange the places of the words "Opposite" and "like".

#2). Exchange the places of the words "repel" and "attract".

Either ONE of these changes will make the statement true.
Doing BOTH of these changes will leave it false.

Answer:

False. Opposite electric charges will attract, and like charges will repel.

If one body is positively charged and another body is negatively charged, free electrons tend toA. remain in the positively charged body.
B. move from the negatively charged body to the positively charged body.
C. remain in the negatively charged body.
D. move from the positively charged body to the negatively charged body.

Answers

Hello, AphCoffee!

B. move from the negatively charged body to the positively charged body

This is because the negative free electrons will be attracted to the positive body and then the electrons will move to the positive body.

Hope this helps :)

you measure that it takes 0.75 seconds for a leaf to fall from a tree to the ground. the leaf experiences air resistance as it falls. if there were no air resistance, how long would it take the leaf to fall?

Answers

There's not enough information given in the problem to calculate that answer.

A leaf falling from a tree on Earth, a sheet of printer paper falling off the back
of a truck on Venus, and a steel ball sinking through a bucket of Scotch whiskey
on Mars, might all reach the bottom in 0.75 second. The time it would take each
of them to fall the same distance through a vacuum in the same place would be
different, and the 0.75 second is not enough to enable you derive it ... even if
you did know the acceleration of gravity in each place. All you can say is that
without resistance, it would fall faster, and hit bottom in less than 0.75 second.

Answer:

less than 0.75 seconds

Explanation:

Other Questions

Can you think of a scenario when the kinetic and gravitational potential energy could both be zero ? Describe or draw how this could be possible below

an object with a mass of 70 kilograms is supported at a height 8 meters above the ground . whats the potential energy of the object with respect to the ground?....A...560 J ...B... 3,430 J...C...5,488.... D...2,058 J

Two aluminized optical flats 15 cm in diameter are separated by a gap of 0.04 mm, forming a capacitor. what is the capacitance in picofarads

A race car is moving with a velocity of 144 kilometers/hour. The driver applies the brakes, and the car comes to a halt in 12.0 seconds. What is the acceleration of the car after 12.0 seconds?