What term describes the rate at which charge passes a point in a circuit

Answers

Answer 1

Answer:

Current - APEX :) lol it said my answer wasn't long enough so yeah Hi

Answer 2

Answer: That's electric "current", usually described in 'Amperes'.

1 Ampere = 1 Coulomb per second ... "the rate at which
charge passes a point in the circuit".

Related Questions

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This scientist focused his study on planetary motion. One of his laws is the planets orbit the Sun in elliptical patterns.Hubble
Kepler
Newton
Copernicus

Answers

You may be familiar with something denoted as Kepler's Laws of Planetary Motion. Though Copernicus argued that the Earth revolved around the sun, against widely accepted knowledge at the time, I believe you are looking for Kepler.

B.) Kepler is the answer, it's correct

A constant net torque is applied to a rotating object. Which of the following best describes the object's motion?a. The object will rotate with increasing angular acceleration.
b. The object will have a decreasing moment of inertia.
c. The object will rotate with constant angular velocity.
d. The object will have an increasing moment of inertia.
e. The object will rotate with decreasing angular acceleration.
f. The object will rotate with constant angular acceleration.

Answers

Answer:

f. The object will rotate with constant angular acceleration.

Explanation:

We know that

τ = I α

τ=Torque

I=Moment of inertia of the object

α =Angular acceleration

The moment of inertia is constant for an object and it does not depends on the applied torque.

If applied torque is constant then the angular acceleration of the object will be constant because moment of inertia is constant.

If angular speed is constant then the angular acceleration will,be zero.But in this case object is having angular acceleration that is why it have varying angular speed.

Therefore option "f" is correct.

When vibrational motion in an object increases, which is a true statement? A.
Kinetic energy, temperature, and thermal energy increase.

B.
Kinetic energy, temperature, and thermal energy decrease.

C.
Kinetic energy and temperature decrease; thermal energy increases.

D.
Kinetic energy and temperature increase; thermal energy decreases.

Answers

A -..................................is the correct option

Answer:

The answer is A

Explanation:

I need help on this question

Answers

Answer:

at rest because time is passing and speed is still at 0

Explanation:

a stone falls from a ledge and takes 8 seconds to hit the ground. The stone has an original velocity of 0 m/s. How tall is the ledge

Answers

The height of a falling object, h, in terms of the seconds passed, t, is
h = 0.5(-9.8t^2) + v_0t + h_0
0 = -4.9(8)^2 + 0 + h_0
h_0 = 64 * 4.9
= 313.6 meters

Here's a formula that tells the distance covered by an
accelerating object starting from rest. The formula is
very useful, and it's simple enough to memorize:

   Distance = (1/2) (acceleration) (time squared) .

If the object is falling, then the acceleration is gravity, 9.8 m/s²,
and the distance is

   (4.9) (time²) .

In this question,

   D = (4.9) (8²)

   = (4.9 x 64) = 313.6 meters.

Coupla comments:

-- This calculation ignores air resistance.
    We kind of ALWAYS do that, otherwise
    the calculation would be very complicated,
and would need a lot of other numbers
    that we don't know, like the size and shape
    of the falling object, and the density of the air.

-- This is a very big building ... about 1,029 feet.
   In New York City, the Chrysler building and
   the New York Times building are both only
   15 feet taller than that.

What is the gravitational force acting on a 70.0 kg object standing on the earth's surface ?

Answers

g( gravitational acceleration)=-9.81 m/s^2
m(mass) = 70.0 kg

According to Newton's second law of motion:

"F=ma"

Force is equal mass per acceleration therefore

W=mg
This is because weigth is the force of gravity acting in a body and "a" is replaced by "g" because "g"
is gravitational acceleration

Therefore:

W= mg
W= (70.0 kg) (-9.81m/s^2)
W= -686.7 N

* The "N" means newton which is (kg* m/s^2)

Final answer:

The gravitational force acting on a 70.0 kg object on Earth is calculated using the formula w=mg and is equal to 686 N.

Explanation:

The gravitational force acting on a 70.0 kg object standing on the earth's surface can be calculated using the formula for weight (which is essentially the gravitational force on the object): w = mg, where m is the mass of the object and g is the acceleration due to gravity. On Earth, g is approximately 9.8 m/s².

Therefore, the gravitational force (weight) acting on this object can be calculated as follows: w = mg = (70.0 kg)(9.8 m/s²) = 686 N. Thus, the gravitational force on this 70.0 kg object standing on the earth's surface is 686 Newtons. It's important to understand that this force will vary if the object is moved to a location where g is different, like on the moon.

Learn more about Gravitational Force here:

brainly.com/question/32609171

#SPJ11

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Which of the following is true of iambic pentameter?a. It has 14 syllables per line. b. It is divided into a pair of fives. c. It has a stressed syllable followed by an unstressed syllable. d. It is present in both Italian sonnets and Shakespearean sonnets.