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Which of the two quantities upthrust or weight will change when an immersed body is slightly raised from the bottom of a beaker with a string?
The upthrust will decrease when an immersed body is slightly raised from the bottom of a beaker with a string, as the body is displacing less fluid and therefore experiencing less buoyant force. The weight of the body remains constant because it depends on the mass of the body, which does not change in this scenario.
What else can I help you with?
How do you get 9 liters from a 10 and 7 liter beaker?
Fill the 7 beaker and pore contents into 10 beaker. Mark where the contents come up to on the 10 beaker. Fill the 10 beaker up and pour off the top of it into the 7 beaker until you are down to the mark. You will now have 3 litres in the 7 beaker. Mark where it comes up to. Empty the 10 beaker. Pour the 3 litres in the 7 litre beaker into the 10 litre beaker. Fill the 7 litre beaker up to the 3 litre mark and pore it into the 10 twice more. You now have 3*3=9 litres in the 10 litre beaker. QED.
What happens to the thermal energy in a beaker as it cools down?
As the beaker cools down, the thermal energy within it decreases. This results in a transfer of heat from the beaker to its surroundings, causing the temperature of the beaker to drop.
How do you heat a beaker of water?
With a heat source, slowly so as to not shatter the beaker.
Is the baggie or beaker more concentrated in iodine?
The beaker is more concentrated in iodine because it contains a higher amount of iodine compared to the baggie.
I have 150 grams of water in a beaker What is it's mass?
it would be the same
How can we determine upthrust using Archimede's principle?
The following procedure can be used to determine the upthrust of a body using Archemede's principle. i) Determine the weight of the body using spring balance and record it as W1. ii) Pour water into eureka can up to its spout. iii ) Take empty bearker, weigh it, record its weight as W2 and place it under the spout of the eureka cane. iv ) Record the weight of the body when is totally immersed in water as W3 v ) Remove the beaker and reweigh it togehter with its contents (overflowed water after immersing the stone) record the weight as W4 There fore uor upthrust of the body is given as, upthrust= loss of weight in water = W1-W2 Weight of displaced water= W4-W2 Hence upthrust =loss of weigt in water =weigth of water displaced The following procedure can be used to determine the upthrust of a body using Archemede's principle. i) Determine the weight of the body using spring balance and record it as W1. ii) Pour water into eureka can up to its spout. iii ) Take empty bearker, weigh it, record its weight as W2 and place it under the spout of the eureka cane. iv ) Record the weight of the body when is totally immersed in water as W3 v ) Remove the beaker and reweigh it togehter with its contents (overflowed water after immersing the stone) record the weight as W4 There fore uor upthrust of the body is given as, upthrust= loss of weight in water = W1-W2 Weight of displaced water= W4-W2 Hence upthrust =loss of weigt in water =weigth of water displaced The following procedure can be used to determine the upthrust of a body using Archemede's principle. i) Determine the weight of the body using spring balance and record it as W1. ii) Pour water into eureka can up to its spout. iii ) Take empty bearker, weigh it, record its weight as W2 and place it under the spout of the eureka cane. iv ) Record the weight of the body when is totally immersed in water as W3 v ) Remove the beaker and reweigh it togehter with its contents (overflowed water after immersing the stone) record the weight as W4 There fore uor upthrust of the body is given as, upthrust= loss of weight in water = W1-W2 Weight of displaced water= W4-W2 Hence upthrust =loss of weigt in water =weigth of water displaced The following procedure can be used to determine the upthrust of a body using Archemede's principle. i) Determine the weight of the body using spring balance and record it as W1. ii) Pour water into eureka can up to its spout. iii ) Take empty bearker, weigh it, record its weight as W2 and place it under the spout of the eureka cane. iv ) Record the weight of the body when is totally immersed in water as W3 v ) Remove the beaker and reweigh it togehter with its contents (overflowed water after immersing the stone) record the weight as W4 There fore uor upthrust of the body is given as, upthrust= loss of weight in water = W1-W2 Weight of displaced water= W4-W2 Hence upthrust =loss of weigt in water =weigth of water displaced
What happens when a strip of red litmus is immersed in a beaker containing 10% sodium hydroxide?
fica molhado
What is buognant force?
The force applied by the liquid on the solid immersed in it is called bouyant force .one can experience this force by pushing a cork into a beaker of water.
What is the color of the Beaker?
The color of a beaker can vary, but most commonly they are made of glass and have a transparent or slightly tinted appearance. This allows for easy visibility of the contents inside the beaker during experiments and measurements.
Where should a thermometer be placed in a beaker?
Hold it by the top or use a clamp. But make sure before you take the temperature you stir the liquid around in the beaker first and that you do not let it touch the bottom of the beaker as the glass will be hotter than your liquid.
What is the volume of 700 ml beaker?
It's not possible to determine the volume of the beaker without knowing its composition and shape. But we can safely assert that the volume of the space inside it, which can be used to hold quantities of just about anything, is 700 ml .
What scientifically happens to a cotton ball when dropped into a beaker of water?
when we put cotton into water than it absorb water for a minute and when it became heavy and upthrust acting on cotton is less than it weight than it go under water.
Why shouldn't the thermometer touch the walls of the distillation head?
because the sides of the beaker will be slightly at high temperature
What is volume by displacement?
Volume displacement is the method used to find the volume of small or irregularly shaped objects by noting the difference in the level of liquid before and after after immersing an object into a graduated cylinder or beaker of liquid. For a small object immersed in a graduated cylinder or beaker, the volume displaced by the object can be read directly from the scale on the container.
What would happen to the water levels in the two beakers if you added an equal amount of salt to the beaker on the left?
If you add an equal amount of salt to the beaker on the left, the water level in that beaker will rise slightly due to the displacement caused by the added salt. In contrast, the water level in the beaker on the right, which has no added salt, will remain unchanged. The overall increase in water level in the left beaker is a result of the combined volume of the water and the salt.
Why keep pH glass electrode immersed in water before and after use?
Keeping the pH glass electrode immersed in water before and after use helps prevent the electrode from drying out, which can affect its accuracy and performance. It also helps to maintain the hydration level of the electrode, ensuring proper functioning and stability during measurements.
What will happen to beaker temperature of 75 degrees celsius in a room temperature of 36 degrees celsius?
The beaker will eventually cool down, while the room will warm up. The room, having a much larger mass, will only warm up slightly.
