How Much Kinetic Energy Does a Saturn V Rocket Reach at 11.2 km/s?

In summary, the conversation involves a student seeking help with a physics problem involving kinetic energy and a Saturn V rocket with an Apollo spacecraft. The student makes a mistake in their calculation and seeks clarification about common units and the correct answer. They are eventually able to solve the problem with the help of a friend.
  • #1
physicsbhelp
298
0
[SOLVED] Conservation of EnErGy Problem help please :(

Homework Statement



If a Saturn V rocket with an Apollo spacecraft attached has a combined mass of 2.3 105 kg and reached a speed of 11.2 km/s, how much kinetic energy would it then have?


Homework Equations



k= m(vsquared)/ 2


The Attempt at a Solution



I multiplied 11.2km by 1000m to get 112000m and i squared that. then i multiplied it by 105kg and then divided by two but i got the wrong answer. please help! what am i doing wrong! thank you soo much.
 
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  • #2
please help me with this problem .
 
  • #3
Please Please Please Help!
 
  • #4
physicsbhelp said:
... a combined mass of 2.3 105 kg

well.. 11.2 * 1000 = 11200 and not 112000!
what is the combined mass?? 105kg? or, 2,3105kg, or what??
what is the answer?
 
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  • #5
the equation is half of mass times velocity squared. square the velocity, then multipy that by half of the mass. Thant is your kinetic energy. (1/2)m(v^2) Where in the equation say mulitiply by 1000m?
 
  • #6
saket: i meant 11200, i put 11200 in my calculator not 112000 sorry it was a typo.
and where did you get the number 2,3105kg from?
I DON'T KNOW THE ANSWER??

and antineutron i multiplied it by 1000m so i could have common units you know-- like you should use km rather than m. so that is why i multiplied it by 1000.
and i used that equation you told me but i am still getting it wrong.
 
  • #7
tell me all the units that are in energy.

what units are included in Newtons? Nm=J which is energy right?

N=kg(m/s^2) , so kinetic energy should be in units of Nm=kg(m^2/s^2) first, convert to the correct units, then use the formula to get the result.
 
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  • #8
I think your statements have flaws.
Have you directly quoted the question or have you tried to put it up in your own words?
And, when you say, "i got the wrong answer" .. you should be knowing the correct answer?
Anyways, as far as classical Kinematics go:
Kinetic Energy = m*(v^2)/2.

{From where did I get 2,1305 kg? Look at what have I quoted in last post in this thread.}

Anyways, if mass is 105kg, and speed is 11.2km/s.. KE = 6.58 x 10^9 J.

Another probabiltiy is the question being put up in an inappropriate fashion.
Looking at the speed with which they are projected, (if from Earth), they will escape from Earth... and if your question is referring to this, final speed should be zero => KE = 0, but.. finally!
 
  • #9
thankyou for your help, but my friend explained it to me.
 

FAQ: How Much Kinetic Energy Does a Saturn V Rocket Reach at 11.2 km/s?

1. What is the conservation of energy principle?

The conservation of energy principle states that energy cannot be created or destroyed, but it can be transformed from one form to another. This means that the total amount of energy in a closed system remains constant.

2. How does the conservation of energy apply to everyday life?

The conservation of energy applies to everyday life in many ways, such as when we use electricity to power our homes, drive a car, or exercise. In all of these situations, energy is transformed from one form to another, but the total amount of energy remains the same.

3. What is an example of a conservation of energy problem?

An example of a conservation of energy problem could be a roller coaster ride. At the beginning of the ride, the roller coaster has a certain amount of potential energy due to its height. As it goes down the track, this potential energy is converted into kinetic energy, and then back into potential energy as the roller coaster goes up another hill. The total amount of energy remains constant throughout the ride.

4. How can we solve conservation of energy problems?

To solve conservation of energy problems, we need to identify all of the forms of energy present in the system and track how they are transformed from one form to another. We can use equations, such as the law of conservation of energy, to calculate the total amount of energy at each point in the system.

5. What happens if the conservation of energy principle is violated?

If the conservation of energy principle is violated, it means that energy is being created or destroyed within the system. This would go against the fundamental laws of physics and is not possible. Therefore, it is important to always consider the conservation of energy when solving problems or analyzing systems.

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