What is the acceleration of a block on a frictionless surface?

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Homework Help Overview

The problem involves a block on a frictionless horizontal surface with a force applied at an angle. Participants are exploring how to calculate the acceleration of the block given the force and mass.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants discuss the horizontal and vertical components of the applied force and how they relate to the acceleration. There are questions about the necessity of considering vertical forces and the correctness of the arithmetic involved in the calculations.

Discussion Status

Multiple interpretations of the problem are being explored, with participants attempting to verify their calculations and questioning the provided answer choices. Some guidance has been offered regarding the arithmetic and the components of the force.

Contextual Notes

There is uncertainty regarding the correctness of the answer choices provided, as some participants have noted discrepancies in their calculated results compared to the options listed.

dirtybirdhouse183
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Homework Statement



A block is on a frictionless horizontal surface. A force of 20 N is applied to the block at an angle of 30 degrees to the horizontal. If the mass of the block is 5 kg, what is the acceleration of the block?

The choices for acceleration are: a) 5.3 b) 6.2 c) 7.5 d) 4.7 e)3.2

Homework Equations



Do I need to compute the vertical forces acting on the block?

The Attempt at a Solution



So I am guessing that the horizontal component of the force is the force that causes the block to accelerate, or move. So then the horizontal force would be 20cos30 which is 17N. Then I divided that by the mass to get the acceleration but it's wrong.
 
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I did what you did:
F_x = \cos 30 \cdot 20 = m a_x
F_y = \sin 30 \cdot 20 - n = 0
so a_x = \frac {\cos 30 \cdot 20}{5} = .62
 
dirtybirdhouse183 said:
So I am guessing that the horizontal component of the force is the force that causes the block to accelerate, or move. So then the horizontal force would be 20cos30 which is 17N. Then I divided that by the mass to get the acceleration but it's wrong.
Your method is correct; the answer is not among those given (although one of them is pretty close).

lizzyb said:
so a_x = \frac {\cos 30 \cdot 20}{5} = .62
Check your arithmetic.
 
I tried

Yes, my acceleration was 3.46, but there acceleration is 3.2. Hopefully, the answer choices aren't incorrect lol. Thanks for the replies though, I really apperciate them.
 

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