PHYSICS MIDDLE SCHOOL

A skydiver jumps out of a hovering helicopter, so there is no forward velocity. Ignore wind resistance for this exercise. 1. What is the skydiver's acceleration

Answers

Answer 1

Answer:

Answer:

$a = g = 9.81 m/s^2$

Explanation:

As we know that there is no wind resistance on the skydiver

so when he jumps out of the helicopter then in that case the net force on the diver will be due to gravity only

so his equation for force is given by

$F = mg$

now from the Newton's law of motion we will have

$F_(net) = ma$

from the given options we will have

$mg = ma$

so the acceleration is

$a = g = 9.81 m/s^2$

Answer 2

Answer: 1. What is the skydiver's acceleration?

Initially, like any falling object, a skydiver's downward acceleration is 9.8 meters/seconds^2, or about 28-35 feet per second squared. This acceleration reduces over a few seconds and approaches zero as the skydiver reaches terminal velocity.

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Newton's _____ Law states that an object's acceleration is directlyrelated to the net force applied and inversely related to the mass of the object.

Answers

Answer:

Newton's second Law states that an object's acceleration is directly related to the net force applied and inversely related to the mass of the object.

Explanation:

Newton's second law states that when force is applied on an object, then it causes acceleration which is directly dependent on the net force applied and varies inversely with the mass of the object.

This law gives us the following equation:

$F=ma$

where $F$ represents net force applied, $m$ represents mass of the object and $a$ represents acceleration caused.

The above equation can be rearranged to:

$a=(F)/(m)$

This equation shows that acceleration is directly dependent on net force and inversely dependent on mass of the body.

Answer:

second - apex

Explanation:

A car is strapped to a rocket (combined mass = 661 kg), and its kinetic energy is 66,120 J.At this time, the rocket runs out of fuel and turns off, and the car deploys a parachute to slow down, and the parachute performs 36,733 J of work on the car.

What is the final speed of the car after this work is performed?

Answers

Answer:

9.43 m/s

Explanation:

The law of conservation of energy requires that the total energy before and after transformation must be equal. Kinetic energy of car and rocket combined equals the parachute energy and that of car.

Final energy of car will be 66120-36733=29,387 J

Kinetic energy, $KE=0.5mv^(2)$ and making v the subject of the formula then $v=\sqrt{\frac {2KE}{m}}$

Where m is the mass and v is velocity.

Substituting 29387 J for KE and 661 kg for m then

$v=\sqrt{\frac {2* 29387}{661}}=9.42957012478699\approx 9.43\ m/s$

I'm Pretty sure its B but I need to know as fast as possible which statement best describes universal law

a)it is in effect some of all time

b)it is in effect all the time

c)it changes over time

d)it operates under specific conditions

Answers

I agree, "B" is the correct answer
Hope it helps you :)

Why do scientists use analysis methods when developing new technology?

Answers

They use them when they want to prove something right. They analyze their data and make sure everything is correctly written down and there's no mistakes. Otherwise, the technology they create, will not work and there could be a slight chance that they got one tiny miscalculation and it offsets everything they wanted to be in the technology.

Final answer:

Scientists use analysis methods when developing new technology to enhance effectiveness and guide future research. This process involves using models, theories, laws, and analytical techniques to interpret data and test hypotheses, leading to continuous advancements across various fields.

Explanation:

Scientists use analysis methods when developing new technology to ensure the accuracy, efficiency, and effectiveness of their designs. The analytical process includes the use of models, theories, and laws to help interpret the data collected and guide future research directions. New technologies, such as mass spectrometry in protein analysis or enhanced microscopy techniques in physics, rely heavily on these analysis methods for progress and innovation.

Additionally, the process of testing and refining a hypothesis through experimentation and data analysis is at the heart of scientific inquiry. This systematic approach feeds into the development of new technology, contributing to the accuracy and reliability of the findings. Upon analyzing the results, scientists formulate new ideas that push the envelope of what is technologically possible.

Lastly, advancements in technology, whether they be in the realm of hardware or software, often drive discoveries in other fields. For example, breakthroughs in engineering have often led to significant developments in biology and chemistry. Therefore, the use of analysis methods in the development of new technology is not only crucial for the enhancement of the technology itself but also for its subsequent impact on other disciplines.

Learn more about Analysis Methods in New Technology here:

brainly.com/question/28527470

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Janine's party, the orchestra has 10 guitar players and 8 flute playersAt Brown's party, the orchestra has 12 guitar players and 7 flute players.Which party has a higher ratio of guitar to flute players?

Answers

Brown's Party because 10-8=2 and 12-7=5 5≥2

compare J 10:8=5:4 and B 12:7
common denominator
J 5:4=35:28 and B 12:7 =48:28
B wins

Help?? 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 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.

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 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.

D.
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.

i think it is B, but can someone help me if im correct or not?

Answers

Your choice is correct. Please don't make me type it all out again.

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