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  • Fruit Tea Superfruits - 250 g
    Fruit Tea Superfruits - 250 g

    Flavoured fruit tea mixture. Low-acid tea blend with exotic fruits and berries such as papaya, physalis, goji and chokeberry, delicately rounded off with deliciously sweet apple pieces, coconut chips, blueberries and raspberries. Hot, warm or cold – this tea is always a delight!

    Price: 10.03 £ | Shipping*: 14.50 £
  • Fruit Tea Cranberry - 250 g
    Fruit Tea Cranberry - 250 g

    A deliciously tasting fruit tea with natural cranberries.Ingredients: apple pieces, hibiscus flowers, cranberries (cranberries, sugar, sunflower oil), flavouring.

    Price: 6.67 £ | Shipping*: 14.50 £
  • Fruit Berry Muesli - 500 g
    Fruit Berry Muesli - 500 g

    High-quality gourmet cereals with nutritious oat flakes, shredded wheat, rye and barley flakes, a lot of tasty dried fruit and berries, cornflakes, hazelnuts, banana chips, sunflower and pumpkin seeds.

    Price: 6.17 £ | Shipping*: 14.50 £
  • AHA Fruit Acid Cream - 50 ml
    AHA Fruit Acid Cream - 50 ml

    With the natural fruit acid complex of passion fruit, grape and pineapple. Natural fruit acids have a very mild peeling effect. They gently dissolve the intercellular cement substance between the skin cells. As a result, excessive calluses are removed, including eg hyperkeratosis and increased cornification of aged skin. The original structure of the skin can be reestablished and the natural renewal process of the skin can be activated. Fruit acid can help delay formation of fine lines and the depth of existing wrinkles is considerably reduced. The skin becomes purer, more vibrant and smoother.

    Price: 11.59 £ | Shipping*: 14.50 £
  • Fruit tea paradise mixture - 200 g
    Fruit tea paradise mixture - 200 g

    Ingredients: Hibiscus, apple pieces, rose hip peels, orange peels, elderberries, Tropica flavour.

    Price: 6.17 £ | Shipping*: 14.50 £
  • Fruit tea paradise mixture - 400 g
    Fruit tea paradise mixture - 400 g

    Ingredients: Hibiscus blooms, apple pieces, rose hip peels, elder blossoms, sweet orange peels, aroma.

    Price: 11.10 £ | Shipping*: 14.50 £
  • Blueberry-Lavender Fruit Tea - 200 g
    Blueberry-Lavender Fruit Tea - 200 g

    Flavoured fruit tea mixture with blueberry-lavender flavour.Naturally flavoured tea blend with tangy-fruity blueberries and floral-intensive lavender flowers. Rounded off with apple pieces, rose-hip peel, hibiscus, elderberries and rose petals. Hot, warm or cold – this tea is always a delight!

    Price: 9.53 £ | Shipping*: 14.50 £
  • Fruit tea Rotbeetchen® - 250 g
    Fruit tea Rotbeetchen® - 250 g

    Mild fruit tea, low in acid, with strawberry flavour. Ingredients: apple pieces, raisins, carrot pieces, beetroot pieces, aroma, strawberry pieces, sunflower blossoms and vanilla pieces.

    Price: 8.92 £ | Shipping*: 14.50 £
  • Peach Dream Fruit Tea - 200 g
    Peach Dream Fruit Tea - 200 g

    Flavoured fruit tea mixture with peach flavour Low-acid tea blend with the full-fruity flavour of sun-ripened peaches, delicately rounded off with deliciously sweet apple and pineapple pieces. Hot, warm or cold – this tea is always a delight!

    Price: 7.28 £ | Shipping*: 14.50 £
  • Fruit tea Kaminfeuer® - 250 g
    Fruit tea Kaminfeuer® - 250 g

    Naturally flavored fruit tea mixture with cinnamon flavour. Ingredients: Apple Pieces, Hibiscus Petals, Rosehip Peels, Almond Pieces, Cinnamon, Rooibos Tea, Natural Flavouring, Natural Bourbon Vanilla Extract.

    Price: 6.67 £ | Shipping*: 14.50 £
  • Organic Chokeberry Fruit Bar - 30 g
    Organic Chokeberry Fruit Bar - 30 g

    Gluten-free enjoyment of the finest - no added sugar, no honey, vegan, just pure nature! Aronia or chokeberries contain a high concentration of antioxidants.Organically grown aromatic dates, almonds andsour cherries complete the recipe perfectly and make for a tangy sour taste.

    Price: 1.45 £ | Shipping*: 14.50 £
  • Fruit Tea "Gingerbread House" - 250 g
    Fruit Tea "Gingerbread House" - 250 g

    Mild flavoured fruit tea, low in acid. Flavoured with roasted almonds. Popular with children and adults all year round.

    Price: 7.28 £ | Shipping*: 14.50 £

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  • Why is Rutherford's scattering experiment called a scattering experiment at all?

    Rutherford's experiment is called a scattering experiment because it involved firing alpha particles at a thin gold foil and observing how they scattered after hitting the foil. The term "scattering" refers to the process of particles being deflected from their original path as a result of collisions with the atoms in the foil. By analyzing the pattern of scattering, Rutherford was able to deduce the structure of the atom and propose the existence of a dense, positively charged nucleus at its center. This experiment was crucial in advancing our understanding of atomic structure and the behavior of subatomic particles.

  • What was Rutherford's scattering experiment?

    Rutherford's scattering experiment involved firing alpha particles at a thin gold foil and observing their deflection. The experiment aimed to study the structure of the atom and determine how the positive charge is distributed within it. The unexpected results of the experiment led Rutherford to propose the nuclear model of the atom, where he suggested that atoms have a small, dense, positively charged nucleus at their center. This experiment was crucial in advancing our understanding of atomic structure.

  • What is the Rutherford scattering experiment?

    The Rutherford scattering experiment was conducted by physicist Ernest Rutherford in 1909. In this experiment, Rutherford bombarded a thin gold foil with alpha particles and observed their scattering patterns. The unexpected results of the experiment led to the discovery of the atomic nucleus and the development of the nuclear model of the atom. The experiment showed that most of the alpha particles passed through the foil, but some were deflected at large angles, indicating the presence of a small, dense nucleus within the atom. This experiment revolutionized our understanding of the structure of the atom.

  • What is the Rutherford scattering with copper?

    Rutherford scattering with copper refers to the experiment conducted by Ernest Rutherford in which he bombarded a thin gold foil with alpha particles. The experiment led to the discovery that atoms have a small, dense nucleus at their center, which was a groundbreaking finding in the field of nuclear physics. The use of copper in the experiment is not common, as gold was the metal foil typically used due to its malleability and ability to be made very thin.

  • What is the difference between reflection and scattering?

    Reflection occurs when light bounces off a surface at the same angle it hits it, resulting in a clear image. Scattering, on the other hand, occurs when light is dispersed in different directions by particles or irregularities in a medium, resulting in a diffuse or hazy appearance. In reflection, the light maintains its original intensity and color, while in scattering, the light may lose intensity and change color due to the interaction with the medium.

  • What causes the photoelectric effect: absorption or scattering?

    The photoelectric effect is caused by absorption of photons by electrons in a material, rather than scattering. When a photon with sufficient energy is absorbed by an electron in a material, it can transfer enough energy to the electron to liberate it from the material, causing the photoelectric effect. Scattering, on the other hand, involves the redirection of photons by particles in a material, but it does not result in the ejection of electrons from the material.

  • Can you repeat the Rutherford scattering experiment in physics?

    Yes, the Rutherford scattering experiment can be repeated in physics. The experiment involves firing alpha particles at a thin gold foil and observing their scattering patterns. This experiment can be replicated using modern equipment and techniques to study the behavior of alpha particles and the structure of the atom. By using more advanced detectors and data analysis methods, scientists can continue to explore the fundamental principles of atomic structure and the behavior of subatomic particles.

  • Why is the Rutherford experiment called the scattering experiment?

    The Rutherford experiment is called the scattering experiment because it involved firing alpha particles at a thin gold foil and observing how they scattered after hitting the foil. This scattering of alpha particles provided crucial evidence for the existence of a small, dense nucleus within the atom, as most of the alpha particles passed through the foil with little deflection, but a small fraction were scattered at large angles. This unexpected scattering pattern led to the development of the nuclear model of the atom and revolutionized our understanding of atomic structure.

  • Can you explain the Rutherford scattering experiment atomic model?

    The Rutherford scattering experiment was conducted by physicist Ernest Rutherford in 1909. In this experiment, Rutherford bombarded a thin gold foil with alpha particles and observed their scattering patterns. According to the prevailing atomic model at the time, the plum pudding model, it was expected that the alpha particles would pass through the foil with minimal deflection. However, Rutherford's observations showed that some alpha particles were deflected at large angles, and even some were reflected back. This led to the development of the nuclear model of the atom, in which the atom is mostly empty space with a small, dense nucleus at the center. This experiment provided evidence for the existence of a positively charged nucleus within the atom, leading to a significant shift in our understanding of atomic structure.

  • What fruit rhymes with fruit?

    The fruit that rhymes with fruit is "loot."

  • Which fruit rhymes with fruit?

    The fruit that rhymes with "fruit" is "loot."

  • Why did Rutherford use alpha particles for his scattering experiment?

    Rutherford used alpha particles for his scattering experiment because they are relatively massive and positively charged, making them ideal for probing the structure of the atom. Their large mass and positive charge allowed them to penetrate the atom and interact with the positively charged nucleus, leading to the discovery of the atomic nucleus. Additionally, alpha particles could be easily produced and their paths could be accurately tracked, making them a practical choice for the experiment.

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