What doesnt change despite what planet you're on

Answers

Answer 1

Answer: Your name, the amount of money in your pocket, and the mass of your body
both travel with you wherever you go, and don't depend on where you are.

Answer 2

Answer: mass does not change

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An angular frequency wave ω0 has an average power P0. If your angular frequency increases by 20%, find the percentage by which its power increases.
A force of 450 N accelerates a box across a frictionless surface at a rate of 15 m/s2. What is the mass of the box? 30 N 30 kg 6,750 N 6,750 kg
22. The mechanical efficiency of any machine is always ____________________ than 100 percent.23. When a pole vaulter flexes the pole, the pole vaulter increases the pole’s ____________________ potential energy. 24. Wind turbines convert ____________________ energy into electrical energy.
In your own words, explain why we see a rainbow or colorful sunset. Explain the properties and interactions that make this display possible.

Nitrogen is used to proctect steel from water because nitrigen has?

Answers

Nitrogen is used to protect steel from water because nitrogen has stable physical properties that enables the nitrogen to be resistant to water molecules. Nitrogen also serves as a coat for the steel to not be corroded easily

A speeding car collides with an unlucky bug flying across the road Which explains why the impact doesn't equally damage the car and the bug

A. The car has more momentum
B.the bug is traveling faster
C. The bug has more momentum
D. The net force is zero

Answers

The collision produces forces between the car and the bug. These forces depend on the momentums of the objects that collide.Momentum is the product of mass and velocity. The greater the mass the smaller the acceleration. That is the Newton's second law. Because the mass of the car is greater, it's momentum is also greater and the accelaration is smaller. so, the bigger momentum of the car explains the different damage.

its A cat has more momentum

Name the physical quantity measured by the area under velocity time graph?

Answers

The area under a speed-time graph, between two time marks and between the
x-axis and the graph line, is exactly the distance traveled during that time.

Britain and France signed an entente and became thea. Central Forces.
c. Central Powers.
b. Allied Forces.
d. Axis Powers.

Answers

Allied Forces. they became the allies.

I think B. Allied forces

Rachel is helping her younger brother replace a broken part in his toy ambulance. This part is responsible for converting electric energy into light energy. Which of these devices should they use for the replacement?bulb

buzzer

motor

switch

Answers

"The Light Bulb" would be the answer of your question. It converts "Electrical energy" into "Light Energy". So, they should use this, for their replacement purpose in the toy.

In short, Option A is your correct answer.

Hope this helps!

The light bulb, it takes electrical energy and turns it into light energy!

The function f(x)equalsnegative 0.25 (x minus 2 )squared plus 8 models the path of a volleyball when the player is 2 feet from the net. The height of the net is 7 ft comma 4 in. Will the ball go over the net? What if the player moves back so she is 4 feet from the net? Explain.

Answers

Answer:

The ball will go over the net when she's standing 2 feet away from the net, but not at 4 ft from the net

Explanation:

Suppose $f(x) = -0.25(x-2)^2 + 8$ then when the player is 2ft from the net, we can plug in x = 2:

$f(2) = -0.25(2-2)^2 + 8 = 0 + 8ft$

As 8 feet > 7 ft 4 in, the ball will go over the net

If the player moves back so that she's 4 feet from the net, plug in x = 4:

$f(4) = -0.25(4 - 2)^2 + 8 = -1 + 8 = 7 ft$

As 7 ft < 7 ft 4 in, this time the ball will NOT go over the net

Final answer:

The function models the path of a volleyball when the player is 2 feet from the net and will the ball go over the net at different distances.

Explanation:

The function f(x) = -0.25(x-2)^2 + 8 models the path of a volleyball when the player is 2 feet from the net. To determine if the ball will go over the net, we need to compare the height of the ball's path with the height of the net.

First, let's convert the height of the net to feet. The height, 7 ft 4 in, is equivalent to 7.33 feet. Now, substitute x = 2 into the function to find the height of the ball when the player is 2 feet from the net. f(2) = -0.25(2-2)^2 + 8 = 8 ft.

The ball will go over the net because the height of the ball, 8 feet, is greater than the height of the net, 7.33 feet.

If the player moves back so she is 4 feet from the net, substitute x = 4 into the function: f(4) = -0.25(4-2)^2 + 8 = 10 ft. The ball would still go over the net, as the height of the ball, 10 feet, is greater than the net's height.

Learn more about volleyball here:

brainly.com/question/18229249

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