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To find out how far 490 joules will raise a block weighing 7 newtons, we can use the formula for gravitational potential energy:
[ \text{Potential Energy} (PE) = \text{weight} \times \text{height} ]
Rearranging this gives us:
[ \text{height} = \frac{PE}{\text{weight}} ]
Substituting the values:
[ \text{height} = \frac{490 \text{ J}}{7 \text{ N}} = 70 \text{ m} ]
Thus, 490 joules will raise the block 70 meters.
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How far will 660 j raise a block weighing 6n?
To find how far 660 joules will raise a block weighing 6 newtons, we can use the work-energy principle, which states that work done (W) equals force (F) times distance (d): W = F × d. Rearranging this formula gives us distance: d = W / F. Therefore, the distance the block will be raised is d = 660 J / 6 N = 110 meters.
How far will 490 j raise a block weighing 7 n?
To find how far 490 joules of energy will raise a block weighing 7 newtons, you can use the formula for gravitational potential energy: ( \text{Potential Energy} = \text{Weight} \times \text{Height} ). Rearranging this gives ( \text{Height} = \frac{\text{Potential Energy}}{\text{Weight}} ). Substituting the values, ( \text{Height} = \frac{490 , \text{J}}{7 , \text{N}} = 70 , \text{m} ). Therefore, 490 joules will raise the block 70 meters.
How far will 350 J raise a block weighing 7 kg mass?
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.
How far will 490 J of work raise a block weighing 7 N?
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.
How far will a car move that weighs 1342 when hit by another car weighing 697 going 60 mph?
About 20,000 feet
How far will 660 j raise a block weighing 6n?
To find how far 660 joules will raise a block weighing 6 newtons, we can use the work-energy principle, which states that work done (W) equals force (F) times distance (d): W = F × d. Rearranging this formula gives us distance: d = W / F. Therefore, the distance the block will be raised is d = 660 J / 6 N = 110 meters.
How far will 350 J raise a block weighing 7 N?
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.
How far will 490 j raise a block weighing 7 n?
To find how far 490 joules of energy will raise a block weighing 7 newtons, you can use the formula for gravitational potential energy: ( \text{Potential Energy} = \text{Weight} \times \text{Height} ). Rearranging this gives ( \text{Height} = \frac{\text{Potential Energy}}{\text{Weight}} ). Substituting the values, ( \text{Height} = \frac{490 , \text{J}}{7 , \text{N}} = 70 , \text{m} ). Therefore, 490 joules will raise the block 70 meters.
How far will 350 J raise a block weighing 7 kg mass?
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.
How far will 490 J of work raise a block weighing 7 N?
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.
Where is thermostat on vw passat diesel?
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
How far can a wood block slide on wood?
As far as you push it.
Solution to level 14 on soukoban?
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
What album had Pink's song raise your glass in?
It on Greatest Hits...So Far
Did Clinton raise more money or Bush as president?
Clinton; FAR more.
How far will a car move that weighs 1342 when hit by another car weighing 697 going 60 mph?
About 20,000 feet
How far is 50 meters in walking a New York city block?
That's 164 feet. Less than one block.
