Which statement best describes an insulator?O
A. It has a high resistivity because it opposes the movement of
electrons.
O
B. It has a low resistivity because it permits the movement of
electrons.
O
C. It has a high resistivity because it permits the movement of
electrons.
O
D. It has a low resistivity because it opposes the movement of
electrons

Answers

Answer 1

Answer:

The statement that describes an insulator is A. It has a high resistivity because it opposes the movement of electrons.

Insulators simply mean the electrical equipment that are used to support electrical conductors as well as separate them as they do not allow the passage of current.

In an electrical insulator, the electric current doesn't flow freely. It possesses a high resistivity because it opposes the movement of electrons.

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Answer 2

Answer:

Answer: It has a high resistivity because it opposes the movement of electrons.

Explanation: I know this because I jus took the test & picked c thinking tht this person got it right but it was actually wrong‍♀️

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I have to get this done today How does the thermal energy of a swimming pool compare to the thermal energy of a lake at the same temperature? A.Thermal energy is the total kinetic energy of the particles in a substance. The lake is more spread out, so it contains fewer total particles than the swimming pool. Therefore, the thermal energy of a lake is less than that of a swimming pool.B.Thermal energy is the total kinetic energy and potential energy of the particles in a substance. The lake is larger, so it contains more total particles than the swimming pool. The thermal energy of a lake is greater than a swimming pool because the lake is larger.C.Thermal energy is the total potential energy of the particles in a substance. The lake is more spread out, so it contains fewer total particles than the swimming pool. Therefore, the thermal energy of a lake is less than that of a swimming pool.D.Thermal energy is the total potential energy of the particles in a substance. The lake is larger, so it contains more total particles than the swimming pool. The thermal energy of a lake is greater than a swimming pool because the lake is larger.

Imagine you poor some hot soup into a bowl. You place your hands on the outside of the bowl and feel that the bowl is very warm. How did that heat get from the soup bowl through your hands?A Osmosis
B Radiation
C Conduction
D Convection

Answers

May be The answer is Conduction

the answer is c conduction

Which phase change in the Atmosphere forms clouds?.

Answers

The phase is frequently used to describe transitions between the three fundamental states of matter. Condensation is the phase change in the atmosphere forms clouds.

What is phase transition?

The physical process of changing a medium's state from one to another is known as a phase transition in the domains of chemistry, thermodynamics, as well as other related sciences. The phase is frequently used to describe transitions between the fundamental states of matter.

The physical characteristics of a phase of such a thermodynamic system as well as the states of matter are constant. Some properties of a particular medium change throughout a phase transition as a result of a change in the environment, including such temperature or pressure. Condensation is the phase change in the atmosphere forms clouds.

Therefore, condensation is the phase change in the atmosphere forms clouds.

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Condensation of the evaporated water

How long ago did the Big Bang happen?

Answers

approximately 13.8 billion years ago.

the big bag happened around 13.7 Billion years ago, according to the standard big bag theory (not the show the scientific theory), sprang in to existences as singularity.

Waves that move matter back and forth are called a.transverse waves b.longitudinal wave c. Medium wave

Answers

Waves that move matter back and forth are called a.transverse waves b.longitudinal wave c. Medium wave

The answer is choice B
Longitudinal wave

94. While you are traveling in a car on a straight, level interstate highway at 90 km/h another car passes you in the same direction, its speedometer reads 120 km/h (a) What is your velocity relative to the other driver? (b) What is the other car's velocity relative to you?

Answers

Answer:

a) $v_{A_(B)}$ = -30 m/s

b) $v_{B_(A)}$ = 30 m/s

Explanation:

Consider the car A travel at a velocity of $v_(A)$ = 90 km/h and the car B travel at the velocity of $v_(B)$ = 120 km/h. As the velocity of the car B is greater than the car A, So it cross the car A. Consider The velocity of car A relative to car B is $v_{A_(B)}$ and it is equal to the velocity of car A minus the velocity of car B.

$v_{A_(B)}$ = $v_(A)$ - $v_(B)$

$v_{A_(B)}$ = 90 - 120

$v_{A_(B)}$ = -30 m/s

Consider The velocity of car B relative to car A is $v_{B_(A)}$ and it is equal to the velocity of car B minus the velocity of car A.

$v_{B_(A)}$ = $v_(B)$ - $v_(A)$

$v_{B_(A)}$ = 120 - 90

$v_{B_(A)}$ = 30 m/s

During what intervals was jenny negatively accelerating

Answers

Jenny's acceleration was negative during the intervals of time when her speed was decreasing.

That's really all we can tell, because you really haven't given us any information except her name.

Final answer:

Negative acceleration refers to times when Jenny was slowing down in her motion. Exact intervals cannot be given without further information on her motion timeline or graphical representation.

Explanation:

The periods during which Jenny was negatively accelerating would be the time intervals during her motion when her speed was decreasing. In a physics context, negative acceleration (or deceleration) means that the object (in this case, Jenny) is slowing down. For instance, if Jenny was running and began to slow down, the period from when she began slowing to when she stopped would be an interval of negative acceleration. However, without specific timelines or a graphical description of Jenny's motion, it's impossible to determine the exact intervals of negative acceleration.

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