To find out how far 350 J of energy will raise a 7 kg block, we can use the formula for gravitational potential energy: ( PE = mgh ), where ( PE ) is potential energy, ( m ) is mass, ( g ) is the acceleration due to gravity (approximately 9.81 m/s²), and ( h ) is the height. Rearranging the formula to solve for height gives us ( h = \frac{PE}{mg} ). Substituting in the values, we have ( h = \frac{350 , \text{J}}{7 , \text{kg} \times 9.81 , \text{m/s}^2} \approx 5.1 , \text{m} ). Therefore, 350 J will raise the block approximately 5.1 meters.
To find the height a block can be raised using 490 J of work, we can use the formula for work: ( W = F \cdot d ), where ( W ) is work, ( F ) is force (weight of the block), and ( d ) is the distance (height raised). Rearranging the formula gives ( d = \frac{W}{F} ). Substituting the values, we have ( d = \frac{490 , \text{J}}{7 , \text{N}} = 70 , \text{m} ). Therefore, the block can be raised 70 meters.
About 20,000 feet
In a city, a standard city block is typically about 1/8 of a mile, or approximately 660 feet. Therefore, 500 feet is roughly three-quarters of a city block. However, the exact distance can vary depending on the specific layout of the city.
The idea of weight has been used for many centuries, as far back as 2,000 years. The Romans are noted with being one of the first users of the scale for weighing in trading purposes.
The work done on the block is 350 J, which can be used to raise the block against gravity. Work done = force x distance. So, distance raised = work done / force = 350 J / 7 N = 50 meters.
To find out how far 350 J of energy will raise a 7 kg block, we can use the formula for gravitational potential energy: ( PE = mgh ), where ( PE ) is potential energy, ( m ) is mass, ( g ) is the acceleration due to gravity (approximately 9.81 m/s²), and ( h ) is the height. Rearranging the formula to solve for height gives us ( h = \frac{PE}{mg} ). Substituting in the values, we have ( h = \frac{350 , \text{J}}{7 , \text{kg} \times 9.81 , \text{m/s}^2} \approx 5.1 , \text{m} ). Therefore, 350 J will raise the block approximately 5.1 meters.
To find the height a block can be raised using 490 J of work, we can use the formula for work: ( W = F \cdot d ), where ( W ) is work, ( F ) is force (weight of the block), and ( d ) is the distance (height raised). Rearranging the formula gives ( d = \frac{W}{F} ). Substituting the values, we have ( d = \frac{490 , \text{J}}{7 , \text{N}} = 70 , \text{m} ). Therefore, the block can be raised 70 meters.
As far as you push it.
As far as I know its on the block in a plastic housing As far as I know its on the block in a plastic housing
Of the top 3 blocks, push the far right block down 2 and left 1 Far top left block down 1 Top block right 1, down 2 Far left block up 1, right 1 Far right block left 1, up 1 Bottom right block up 1 Bottom block right 2 Push middle left block down 1 Top block right and down
It on Greatest Hits...So Far
Clinton; FAR more.
About 20,000 feet
That's 164 feet. Less than one block.
You would have walked 2500m..
It's on the far left block when you get to that city. First building on the right when you go on that block