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4 years ago

6

Enter a one- or two-word answer that correctly completes the following statement. If the constant force is applied over a given

distance D, along the path of the particle, then the _____ of the particle will increase by FD.

1 answer:

alisha [4.7K]4 years ago

5 0

Answer:

Kinetic energy

OR

Work

Explanation:

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18) A charm quark has a charge of approximately

Allushta [10]

Based on scientific records, a charm quark has a charge that's approximately equal to: 2) 1.07 × 10⁻¹⁹ C.

<h3>What is a charge?</h3>

A charge simply refers to a fundamental, physical property of matter that governs how the particles of a substance are affected by an electromagnetic field, especially due to the presence of an electrostatic force (F).

Also, charge is typically measured in Coulombs and a charm quark (elementary particle) has a charge that's approximately equal to 1.07 × 10⁻¹⁹ Coulomb.

Read more on charges here: brainly.com/question/4313738

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2 years ago

Which vehicle has the LEAST kinetic energy? 18-wheeler, minivan, car, or bike?

Whitepunk [10]

We can make pretty good guesses for their masses, but kinetic energy also depends on their speeds, which we don't know, and may change.

As an example ... If the truck, the van, the car, and the bike are all parked at the mall, then a scampering mouse has more kinetic energy than all of them combined.

As the question stands, no answer is possible.

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3 years ago

the process of upwelling brings which of the following to the surface? freshwater, deoxygenated water, cold water, or warm water

Leni [432]

That would be

cold water

google will tell you, lol

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4 years ago

Read 2 more answers

A 8.50 g bullet has a speed of 1.50 km/s . What is the kinetic energy of the bullet? Express your answer to three significant fi

Anastaziya [24]

Kinetic energy is equivalent to .5*(mass)*(velocity)^2
The mass should be in kilo grams and the velocity in meters per second.
Let me know if you need more help with it.

7 0

3 years ago

An effective treatment for some cancerous tumors involves irradiation with "fast" neutrons. The neutrons from one treatment sour

KATRIN_1 [288]

Answer:

$5.07\cdot 10^{-14} m$

Explanation:

The velocity of the neutrons is

$v=3.13\cdot 10^7 m/s$

The mass of a neutron is

$m=1.66\cdot 10^{-27} kg$

So their momentum is

$p=mv=(1.66\cdot 10^{-27})(3.13\cdot 10^7)=5.20\cdot 10^{-20}kg m/s$

The relative uncertainty on the velocity is 2 %. Assuming that the mass of the neutron is known with negligible uncertainty, then the relative uncertainty on the momentum of the neutron is equal to the relative uncertainty on the velocity, so 2%. Therefore, the absolute uncertainty on the momentum is

$\sigma_p = 0.02 p =0.02(5.20\cdot 10^{-20})=1.04\cdot 10^{-21} kg m/s$

Heisenber's uncertainty principle states that

$\sigma_x \sigma_p \geq \frac{h}{4\pi}$

where

$\sigma_x$ is the uncertainty on the position

h is the Planck constant

Solving for $\sigma_x$ , we find the minimum uncertainty on the position:

$\sigma_x \geq \frac{h}{4\pi \sigma_p}=\frac{6.63\cdot 10^{-34}}{4\pi(1.04\cdot 10^{-21})}=5.07\cdot 10^{-14} m$

7 0

3 years ago