Which example illustrates Newton's second law?A. A wheelbarrow remains stationary when no one pushes on it.
B. More mass is added to a wheelbarrow, and a larger force is
required to move it.
C. A person pushes a wheelbarrow, causing it to move forward.
D. The force of a wheelbarrow on the ground is equal to the force of
the ground on the wheelbarrow.

Answers

Answer 1

Answer:

More mass is added to a wheelbarrow, and a larger force is required to move it - illustrates Newton's second law.

What is force?

An object's push or pull is seen as exerting a force. The interaction of the objects produces push and pull. You can also use words like stretch and squeeze to describe force.

The definition of force in physics is: The push or pull on a mass-containing item changes its velocity.

Newton’s second law of motion states that “Force is equal to the rate of change of momentum. For a constant mass, force equals mass times acceleration."

Hence more mass is added to a wheelbarrow, and a larger force is required to accelerate, i.e., move it.

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Answer 2

Answer:

Answer:B

Explanation:

Mass

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Jake drops a book out of a window from a height of 10 meters. At what velocity does the book hit the ground? Answer choices: A: 7.0Meters/Second B: 10Meters/Second C: 14Meters/Second D: 28Meters/Second
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An airplane on a runway accelerates at 4.0 meters/second2 for 28.0 seconds before takeoff. How far does the plane travel on the runway before takeoff?

Answers

the plane travels a distance of 1568 meters on the runway before takeoff. To find the distance traveled by the airplane before takeoff, we can use the following kinematic equation: $d = v_i t + (1)/(2)at^2$

Where:

- d is the distance traveled.

- $v_i$ is the initial velocity, which is 0 m/s since the airplane starts from rest.

- a is the acceleration, which is 4.0 m/s².

- t is the time, which is 28.0 seconds.

Plugging these values into the equation:

$d = (0) * 28.0 + (1)/(2) * 4.0 * (28.0)^2$

Calculating this:

$d = 0 + 1/2 * 4.0 * 784 = 1/2 * 3136 = 1568\, \text{meters}$

So, the plane travels a distance of 1568 meters on the runway before takeoff.

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4
x28
==
112
I believe that is the answer.

Which of the following does not represent a mechanical wave?sound
waves in the ocean
waves in a wheat field
light

Answers

The example that does not represent a mechanical wave is light. A mechanical wave requires a medium in order for it to travel and propagate. Examples of such is sound waves that travel through the air or ocean. Light is an electromagnetic wave because it makes use of particles called photons to propagate.

Which of the following does not represent a mechanical wave?

light

URGENT PLEASE BRAINLIESTAssuming the starting height is 0.0 m, calculate the potential energy of the cart after it has been elevated to a height of 1.0 m above the starting location

Answers

When the cart arrives at any place that's 1.0 meter higher than where it started, its potential energy will be

(9.8) · (its mass on kilograms) Joules .

Final answer:

Potential Energy is given by the formula mass x gravity x height. The starting height is irrelevant in its calculation. The potential energy depends on the mass of the object, gravity and the elevated height.

Explanation:

The potential energy of an object is calculated by the formula Potential Energy = mass x gravity x height. Whenever the height of an object increases, its potential energy will increase as well provided mass and the gravitational field (g) remain constant. Here, the starting height being 0.0 m is irrelevant to the calculation of potential energy at 1.0 m height. If the mass of the cart and the value of gravity (usually taken as 9.8 m/s2 on Earth's surface) are known, you can substitute those values into the formula to find the potential energy.

e.g. If the mass of the cart was 2 kg, the potential energy at a height of 1.0 m would be 2 kg x 9.8 m/s

x 1.0 m = 19.6 joules.

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When a mirage occurs what are is being refracted?1.the road or sand
2.water vapor
3.blue sky

Answers

Answer:

3. blue sky

Explanation:

I answered blue sky on my quiz and got it correct.

Answer:

Blue Sky

Explanation:

I also took the test :)

Can you help me with this pls

Answers

Answer:

Can you help me with this pls

Is it possible for an object to move so that it produces an absolutely vertical line on the velocity-time graph? Explain.

Answers

Answer: No.

Explanation: If an object moved to produce a vertical line on the velocity-time graph, it would mean that it would move at an infinite speed with no change in time. Nothing moves at an infinite speed; it is just not possible.

If you wanted to look at it through a calculus lens, acceleration is the derivative of velocity. You can't take the derivative of a vertical tangent line, so the acceleration wouldn't exist. This isn't possible if an object is moving; it has to have either constant acceleration or a non-zero acceleration.

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