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2 years ago

A bicyclist traveling at 5 m/s hits a fence, the bicyclist files over the fence. Which

Physics

1 answer:

Margarita [4]2 years ago

6 0

The Newton's Laws that BEST describe the situation is Newton's second law of motion.

<h3>What is Newton's second law of motion?</h3>

Newton's second law of motion states, the force exerted by an object is directly proportional to the product of mass and acceleration of the object.

Also, the law can also be states as force is equal to the rate of change of momentum.

F ∝ Δp

Ft = m(v2 - v1)

The force exerted on the bicyclist by the fence is equal to the change in momentum of the bicyclist. The bicyclist was able to fly over the fence because there is a change in his momentum.

Thus, the Newton's Laws that BEST describe the situation is Newton's second law of motion.

Learn more about Newton's second law of motion here: brainly.com/question/3999427

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An airplane is seller rates down a runway at 3.10 M/S squared 441.5 seconds from rest until finally left off the ground ,what is

sineoko [7]

Answer:

302129m

Explanation:

Using s= ut + 1/2at²

But u= 0

S= 1/2(3.1)(441.5)²

=302129m

6 0

4 years ago

You and your housemate have an argument over the cost of the electric bill. You want to turn off the outside porch light before

viktelen [127]

Answer:

Cost = $ 3,995

Explanation:

Let's start by looking for the energy consumed, which is the power over time

E = P t

The power is 65 W, the time is 12 h each day, in a period of 30 days the time is

t = 12 30 = 360 h

E = 65 360

E = 23,500 W h

We reduce to KW h

1 kW = 1000 W

E = 23.5 kW h

Let's use a direct ratio rule (rule of three) to find the cost

Cost = 23.5 17.0

Cost = 399.5 c

Cost = $ 3,995

7 0

4 years ago

"The White Shark" allows riders to start from rest on a tube and then slide down a 44 meter slide. It takes the rider 6.2 second

Leni [432]

<span>Acceleration is the rate of change of the velocity of an object that is moving. This value is a result of all the forces that is acting on an object which is described by Newton's second law of motion. Calculations of such is straightforward, if we are given the final velocity, the initial velocity and the total time interval. However, we are not given these values. We are only left by using the kinematic equation expressed as:

d = v0t + at^2/2

We cancel the term with v0 since it is initially at rest,

d = at^2/2
44 = a(6.2)^2/2
a = 2.3 m/s^2

</span>

6 0

3 years ago

Which of the following objects does not orbit directly around the sun?

lys-0071 [83]

C. Moons because moons orbit planets not stars

3 0

3 years ago

Two electrons travel towards each other at 0.2 c parallel to the laboratory x-axis. What is the relative velocity of one electro

Leya [2.2K]

1) In the reference frame of one electron: 0.38c

To find the relative velocity of one electron with respect to the other, we must use the following formula:

$u'=\frac{u-v}{1-\frac{uv}{c^2}}$

where

u is the velocity of one electron

v is the velocity of the second electron

c is the speed of light

In this problem:

u = 0.2c

v = -0.2c (since the second electron is moving towards the first one, so in the opposite direction)

Substituting, we find:

$u'=\frac{0.2c+0.2c}{1+\frac{(0.2c)(0.2c)}{c^2}}=\frac{0.4c}{1+0.04}=0.38c$

2) In the reference frame of the laboratory: -0.2c and +0.2c

In this case, there is no calculation to be done. In fact, we are already given the speed of the two electrons; we are also told that they travel in opposite direction, so their velocities are

+0.2c

-0.2c

5 0

3 years ago