Yes. The temperature of the liquid and the wax both affect the action of a lava lamp.
The glass of a kerosene lamp while glowing is hot. When water falls on it, there is a sudden change in temperature, which causes the glass to break.
The lava in a lava lamp moves slower because it is denser than the surrounding water. Due to differences in temperature and density, the heated wax (lava) rises to the top of the lamp, cools down, and then sinks back to the bottom. This creates the slow, mesmerizing movement you see in a lava lamp.
No, you should not put water in an Orbeez mood lamp. The lamp is designed to work with the Orbeez beads and adding water could damage the lamp or cause a short circuit.
The temperature at which a lava lamp melts can vary depending on the specific type of wax used inside. Generally, the wax in a lava lamp melts at around 130-150 degrees Fahrenheit (54-65 degrees Celsius), which allows it to flow and create the characteristic lava lamp effect.
To create a lava lamp using alka seltzer, water, and vegetable oil, you would mix water with food coloring and vegetable oil in a clear container. Then, drop pieces of alka seltzer tablets into the mixture. The reaction between the alka seltzer and water will create gas bubbles that rise through the oil, creating the lava lamp effect.
Yes. The temperature of the liquid and the wax both affect the action of a lava lamp.
No, the size of the fizzy tablet does not significantly affect the number of blobs created in a homemade lava lamp. The reaction between the tablet and the liquid produces the gas bubbles responsible for creating the blobs, and this reaction is fairly consistent regardless of the tablet size.
The glass of a kerosene lamp while glowing is hot. When water falls on it, there is a sudden change in temperature, which causes the glass to break.
Yes, the temperature of the water can affect the behavior of the ingredients in a homemade lava lamp. Hot water decreases the density of the colored water, allowing it to rise and create bubbles more easily when mixed with oil. Cold water, on the other hand, may cause the colored water to sink and not exhibit the same bubbly motion. For the best effect, warm water is generally recommended.
A hypothesis for making a lava lamp could be: "If I combine oil, water, and effervescent tablet in a bottle, then the chemical reaction will cause bubbles to form and rise to the top, creating a lava lamp effect."
because it does!
The lava in a lava lamp moves slower because it is denser than the surrounding water. Due to differences in temperature and density, the heated wax (lava) rises to the top of the lamp, cools down, and then sinks back to the bottom. This creates the slow, mesmerizing movement you see in a lava lamp.
Remove from vehicle. Place in a jar of water and heat on the stove with thermometer in the water. Connect a battery and lamp to the terminals.The sensor acts as a switch. See what temperature the lamp lights and compare to spec. If you have an ohmmeter connect it across sensor and note resistance. It should drop dramatically at set temperature.
To make a graph for a lava lamp, you can display the temperature of the lamp's liquid contents over time. You could plot time on the x-axis and temperature on the y-axis. This graph could show the changing temperature patterns of the lava lamp as it warms up and cools down.
Yes you can use alka seltzer to make your own personal lava lamps. It doesn't matter what kind you use as long as it fizzes with the oil and the water.
The manipulated variable in making a lava lamp is the temperature of the lamp, which can be adjusted to control the movement of the colored blobs in the lamp.
The independent variable of a lava lamp experiment could be the temperature of the lamp, the type of wax or liquid inside the lamp, or the amount of time the lamp is switched on.