What is the scale reading when the block starts to slide down the incline?

In summary, the scale reading when the block is at rest on the incline of the wedge is 9.8N, due to the static friction between the block and the wedge. When the friction is eliminated and the block starts to slide, the scale reading decreases to 8.99N due to the vertical component of the normal force between the block and the wedge. The vertical component of the normal force also affects the scale reading when the block is at rest, along with the friction force. However, in this situation, the system is in equilibrium and the scale must read the total weight of the block and the wedge.
  • #1
mjolnir80
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0

Homework Statement


say we have a block resting on a incline of a wedge (the incline is 40 degrees). the wedge is on a scale(mass of block is .2 kg and mass of wedge is .8kg).if the block is at rest (due to to static friction) the scale would read 9.8N. but let's say we eliminate the friction on the wedge and the block starts to slide down the incline. the friction between the wedge and the scale is large enough to keep the wedge still on the scale.what would the scale read now?



Homework Equations





The Attempt at a Solution


i somehow accidentally got the right answer to this (which is 8.99N) but i still don't wuite understand what happens when the block starts to slide. i know that the block would start pushing against the wedge as it goes down but i don't see which force is doing the pushing?
can someone help me out with this
 
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  • #2
It's the vertical component of the normal force between the block and the wedge that does the pushing. The scale reads the vertical normal force acting on it. you need to draw a free body diagram of the top block to look at what the normal force is between the block and wedge, then look at the vertical component of that force.
 
  • #3
thanks for the help
one more thing how come the vertical component of the normal force doesn't affect the wedge when the blaock is standing still?
 
  • #4
mjolnir80 said:
thanks for the help
one more thing how come the vertical component of the normal force doesn't affect the wedge when the blaock is standing still?
Sure it does. The scale records a weight of 9.8N, which is the sum of the weights of both the wedge and block. There must be friction force on the block when it's still, and that vertical component of friction contributes also, along with the normal force vertical contribution, to the scale reading. But also in that at rest situation, you needn't consider the block's normal or friction force directly; just look at the system itself, it is in equilibruium, so the scale force must read the total weight of the block and wedge. In the other case where the block is sliding down the plane, the scale reading is less because the top block is not in equilibrium in the vertical direction.
 

1. What is the weight of two blocks?

The weight of two blocks can vary depending on the material and size of the blocks. To determine the weight, we would need to know the mass of each block and the force of gravity acting on them.

2. Do two blocks of the same size and material have the same weight?

Not necessarily. The weight of an object is determined by its mass and the force of gravity acting on it. If the two blocks have the same mass but are in different locations (e.g. one on Earth and one on the Moon), they will have different weights.

3. How does the weight of two blocks change if one block is removed?

If one block is removed, the weight will change accordingly. The weight of the remaining block will remain the same, but the total weight will be reduced by the weight of the removed block.

4. Can two blocks have different weights if they are made of the same material but have different shapes?

Yes, the weight of an object is determined by its mass and the force of gravity acting on it. The shape of an object does not affect its weight, unless it changes the mass of the object.

5. How can we measure the weight of two blocks?

The weight of two blocks can be measured using a scale. The blocks can be placed on the scale and the reading will indicate the combined weight of the two blocks. Alternatively, the weight of one block can be measured and then multiplied by two to get the weight of two blocks.

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